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Mark C. Hersam Department of Materials Science and Engineering

Northwestern University 2220 Campus Drive, Evanston, IL 60208-3108

Phone: 847-491-2696, Fax: 847-491-7820 E-mail: m-hersam@northwestern.edu

WWW: http://www.hersam-group.northwestern.edu/ Research Interests Scanning probe microscopy; nanometer-scale size-dependent structure-property relationships; semiconductor surfaces; nanoelectronics; nanophotonics; sensors; carbon nanotubes; graphene; two-dimensional nanomaterials Experience 2015- Northwestern University, Evanston, IL Walter P. Murphy Professor of Materials Science and Engineering 2015- Northwestern University, Chicago, IL Professor, Department of Electrical Engineering and Computer Science 2013- Northwestern University, Evanston, IL Director, Materials Research Center 2012-2015 Northwestern University, Evanston, IL Bette and Neison Harris Chair in Teaching Excellence 2011- Northwestern University, Chicago, IL Professor, Department of Medicine 2010- ACS Nano, Associate Editor 2007- Northwestern University, Evanston, IL Professor, Department of Chemistry 2006- Northwestern University, Evanston, IL Professor, Department of Materials Science and Engineering 2000-2006 Northwestern University, Evanston, IL Assistant Professor, Department of Materials Science and Engineering 1999 IBM T. J. Watson Research Center, Yorktown Heights, NY Research Intern, Nanoscale Science Department 1996 Argonne National Laboratory, Argonne, IL Research Aide, Materials Science Division

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1995 University of Illinois, Urbana, IL Research Intern, Center for Compound Semiconductor Microelectronics Education 2000 Ph.D. in Electrical Engineering University of Illinois, Urbana, IL Thesis title: “Silicon-based Molecular Nanotechnology: Fabrication and

Characterization with the Scanning Tunneling Microscope” 1997 M.Phil. in Microelectronic Engineering and Semiconductor Physics University of Cambridge, Cambridge, UK Thesis title: “Analysis and Manipulation of Electrically Stressed Nanowires using

Atomic Force Microscopy” 1996 B.S. in Electrical Engineering with Highest Honors University of Illinois, Urbana, IL Personal Data Birthdate and place: January 31, 1975; Hinsdale, Illinois Married to Susan N. Meyers: July 15, 2000; Monticello, Illinois Two daughters: (1) Angela Claire Hersam, born on January 19, 2006; Evanston, Illinois (2) Abigail Rose Hersam, born on September 27, 2009; Evanston, Illinois Honors Faculty Honors 2019 Clarivate Analytics Highly Cited Researcher 2019 Kreidl Memorial Lecture, 31st Rio Grande Symposium on Advanced Materials,

Albuquerque, New Mexico 2019 Plenary Speaker, International Conference on Functional Nanomaterials and

Nanodevices, Prague, Czech Republic 2019 Department of Energy EFRC Ten at Ten Technology and Tools Award 2019 Teacher of the Year in the Department of Materials Science and Engineering 2019 Plenary Speaker, 118th General Assembly of the German Bunsen Society for Physical

Chemistry, Jena, Germany 2019 Plenary Speaker, International Forum on Graphene, Shenzhen, China 2018 Clarivate Analytics Highly Cited Researcher 2018 Advanced Materials Hall of Fame 2018 Kay Malmstrom Lecture in Physics, Hamline University 2018 Plenary Speaker, International Graphene Innovation Conference, Xi’an, China 2018 Plenary Speaker, Carbon-Rich Molecules to Carbon-Based Materials Conference,

Nassau, Bahamas 2018 Plenary Speaker, International Conference on Nanoscience and Technology, Bangaluru,

India 2017 National Academy of Inventors (NAI) Fellow

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2017 Sigma-Aldrich Distinguished Lecture in Materials, University of Maryland 2017 Teacher of the Year in the Department of Materials Science and Engineering 2017 Blavatnik National Award Finalist 2017 AVS Nanotechnology Recognition Award 2017 Willard Davis Lecture, University of South Carolina 2017 Munushian Distinguished Lecturer, University of Southern California 2016 U.S. Science Envoy 2016 Institute of Electrical and Electronics Engineers (IEEE) Fellow 2016 Plenary Speaker, International Conference on Molecular Electronics, Paris, France 2016 Plenary Speaker, Graphene Industry Technology Summit Forum, Nanning, China 2016 Plenary Speaker, International Materials Research Congress, Cancun, Mexico 2016 Plenary Speaker, Electronic Materials Conference, Newark, Delaware 2015 World Technology Network Fellow 2014 MacArthur Fellowship 2014 American Association for the Advancement of Science (AAAS) Fellow 2013 ACS Arthur K. Doolittle Award in Polymeric Materials Science and Engineering 2013 Teacher of the Year in the Department of Materials Science and Engineering 2013 Linus Pauling Memorial Lecture 2013 National Science Foundation Creativity Award 2012 American Physical Society (APS) Fellow 2012 American Vacuum Society (AVS) Fellow 2012 Materials Research Society (MRS) Fellow 2012 International Society for Optics and Photonics (SPIE) Fellow 2012 Finalist for the IUMRS – MRS Singapore Young Researcher Award 2011 Teacher of the Year in the Department of Materials Science and Engineering 2011 W. M. Keck Foundation Science and Engineering Research Grant 2011 AVS Prairie Chapter Award for Outstanding Research 2010 Teacher of the Year in the Department of Materials Science and Engineering 2010 Materials Research Society Outstanding Young Investigator Award 2010 SES Research Young Investigator Award, Electrochemical Society 2009 Senior Member, Institute of Electrical and Electronics Engineers 2009 Teacher of the Year in the Department of Materials Science and Engineering 2007 Teacher of the Year in the Department of Materials Science and Engineering 2007 Young Alumni Achievement Award, ECE Department, UIUC 2006 AVS Peter Mark Award 2006 TMS Robert Lansing Hardy Award 2006 Chicago Area Undergraduate Research Symposium Faculty Research Award 2005 Presidential Early Career Award for Scientists and Engineers 2005 Nottingham Prize (Ph.D. Advisor of Nathan Guisinger) 2005 Office of Naval Research Young Investigator Award 2005 Army Research Office Young Investigator Award 2005 Alfred P. Sloan Research Fellowship 2005 New Faces of Engineering Award 2004 Associated Student Government Faculty Honor Roll 2004 606 Magazine “30 Under 30” Award 2003 Teacher of the Year in the Department of Materials Science and Engineering

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2002 National Science Foundation CAREER Award 2001 Arnold and Mabel Beckman Young Investigator Award 2001 Finalist for the Discover Magazine Innovation Award in Electronics 2001 Searle Center for Teaching Excellence Junior Fellow Postgraduate Honors 2000 Finalist for the Experimental Feynman Prize in Nanotechnology 2000 Gregory Stillman Semiconductor Research Award 1999 IBM Distinguished Fellowship 1999 Frederic T. & Edith F. Mavis Fellowship 1999 American Vacuum Society Graduate Research Award 1998 Koehler Graduate Fellowship 1997 National Science Foundation Graduate Fellowship 1996 British Marshall Scholarship Undergraduate Honors 1996 All-USA Academic Team Member 1996 Knight Award 1996 Harvey H. Jordan Award 1996 E. C. Jordan Award 1995 MacClinchie Scholarship 1995 IBM Scholarship 1995 Phi Kappa Phi Scholarship 1995 Illinois State Lincoln Academy Laureate 1994 Electronic Data Systems Scholarship 1994 Alcoa Foundation Scholarship 1994 Macmillan Scholarship 1993 Illinois State Scholar 1993 UIUC Chancellor's Scholar 1993 UIUC James Scholar Postdoctoral Fellows and Research Associates Supervised (1) Dr. Lixin Cao, Research Associate, 2002-2003 (joint with Michael Bedzyk) (2) Dr. Edward T. Foley, Senior Research Associate, 2001-2012 (3) Dr. Nathan P. Guisinger, Post Doctoral Fellow, 2005-2006 (4) Dr. John R. Ireland, Post Doctoral Fellow, 2004-2008 (5) Dr. Donald E. Kramer, Post Doctoral Fellow, 2002-2005 (6) Dr. Alexander Manasson, Post Doctoral Fellow, 2007-2008 (7) Dr. Adam D. McFarland, Post Doctoral Fellow, 2004-2005 (joint with Richard Van Duyne) (8) Dr. Gordana Ostojic, Post Doctoral Fellow, 2005-2010 (9) Dr. John D. Tovar, Post Doctoral Fellow, 2003-2005 (joint with Samuel Stupp) (10) Dr. Michael Walsh, Post Doctoral Fellow, 2009-2010 (11) Dr. Joshua Kellar, Post Doctoral Fellow, 2009-2010 (12) Dr. Md. Zakir Hossain, Post Doctoral Fellow, 2009-2011 (13) Dr. Vinod Sangwan, Post Doctoral Fellow, 2009-2014 (14) Dr. Youjin Na, Post Doctoral Fellow, 2010-2011

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(15) Dr. Aparna Deshpande, Post Doctoral Fellow, 2010-2011 (16) Dr. James Johns, Post Doctoral Fellow, 2010-2013 (17) Dr. John J. Garramone, Post Doctoral Fellow, 2011-2012 (18) Dr. Sung Huh, Post Doctoral Fellow, 2011-2012 (19) Dr. Prad L. Prabhumirashi, Post Doctoral Fellow, 2011-2013 (20) Dr. TeYu Chien, Post Doctoral Fellow, 2011-2013 (21) Dr. Kanan Puntambekar, Post Doctoral Fellow, 2012-2014 (22) Dr. Vincent Demers-Carpentier, Post Doctoral Fellow, 2012- (23) Dr. Kan-Sheng Chen, Post Doctoral Fellow, 2012- (24) Dr. EunKyung Cho, Post Doctoral Fellow, 2013-2014 (25) Dr. Ramakrishna Matte, Post Doctoral Fellow, 2013- (joint with Tobin Marks) (26) Dr. Karl Putz, Research Assistant Professor, 2013- (27) Dr. Josh Wood, Post Doctoral Fellow, 2013- (28) Dr. Jian Zhu, Post Doctoral Fellow, 2013- (29) Dr. Hyesung Park, Post Doctoral Fellow, 2014 (30) Dr. Sunghwan Jin, Post Doctoral Fellow, 2014- (31) Dr. Junmo Kang, Post Doctoral Fellow, 2014- (32) Dr. Jae-Hyeok Lee, Post Doctoral Fellow, 2014- Ph.D. Students Supervised (1) Nathan P. Guisinger (MSE) Ph.D. thesis successfully defended on: May 27, 2005 “Probing silicon based molecular electronics with ultrahigh vacuum scanning tunneling

microscopy” (2) Mark E. Greene (MSE) Ph.D. thesis successfully defended on: July 8, 2005 “Characterization of DNA bendability and bendedness using quantitative atomic force

microscopy” (3) C. Reagan Kinser (MSE) Ph.D. thesis successfully defended on: September 30, 2005 “Nanoscale fabrication and characterization of chemically modified silicon surfaces using

conductive atomic force microscopy in liquids” (4) Rajiv Basu (MSE) Ph.D. thesis successfully defended on: September 21, 2006

“Fabrication, functionalization, and characterization of atomically precise organosilicon nanostructures: A scanning tunneling microscopy study”

(5) Liam S. C. Pingree (MSE) Ph.D. thesis successfully defended on: October 4, 2006 “Examining organic light-emitting diode defects through scanning probe microscopy: Technique development and inherent spatial variations”

(6) Michael S. Arnold (MSE) Ph.D. thesis successfully defended on: October 16, 2006 (joint with Samuel Stupp)

“Carbon nanotubes: Photophysics, biofunctionalization, and sorting via density differentiation”

(7) Nathan L. Yoder (MSE) Ph.D. thesis successfully defended on: December 3, 2007 “Investigating the dynamics of saturated hydrocarbons on Si(100) with scanning tunneling microscopy and density functional theory”

(8) Steven T. Christensen (MSE) Ph.D. thesis successfully defended on: November 24, 2008 (joint with Michael Bedzyk)

“Nanoscale investigation of platinum nanoparticles on SrTiO3 grown via physical vapor deposition and atomic layer deposition”

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(9) Norma E. Sosa (MSE) Ph.D. thesis successfully defended on: April 20, 2009 (joint with Tobin Marks)

“Nanoscale studies of patterned transparent conducting oxides using scanning probe microscopy”

(10) Michael A. Walsh (MSE) Ph.D. thesis successfully defended on: November 5, 2009 “Atomic scale fabrication and characterization of novel one-dimensional organosilicon nanostructures: A scanning tunneling microscopy study”

(11) Joshua A. Kellar (MSE) Ph.D. thesis successfully defended on: November 6, 2009 “Characterization and nanopatterning of functional organics on hydrogen-terminated Si(111) and eptiaxially grown graphene substrates”

(12) David J. Comstock (MSE) Ph.D. thesis successfully defended on: March 29, 2010 “Investigation of atomic layer deposition for the synthesis of electrochemical electrodes”

(13) Qing Hua Wang (MSE) Ph.D. thesis successfully defended on: June 30, 2010 “Investigating the assembly of hybrid organic and inorganic nanostructures on silicon and graphene with scanning tunneling microscopy”

(14) Alexander A. Green (MSE) Ph.D. thesis successfully defended on: July 7, 2010 “Monodisperse carbon nanomaterials for thin film electronics”

(15) Benjamin Leever (MSE) Ph.D. thesis successfully defended on: May 20, 2011 (joint with Tobin Marks)

“Investigating charge transport mechanisms and spatially localized photocurrent variation in organic photovoltaic devices”

(16) Timothy P. Tyler (MSE) Ph.D. thesis successfully defended on: April 23, 2012 “Monodisperse carbon nanotubes and metal nanoparticles: Centrifugal sorting and device implications”

(17) Justice M. Alaboson (MSE) Ph.D. thesis successfully defended on: July 19, 2012 “Nanopatterning and characterization of inorganic films grown by atomic layer deposition on silicon and graphene substrates”

(18) Albert L. Lipson (MSE) Ph.D. thesis successfully defended on: April 1, 2013 “Controlling and measuring electrochemical processes at the nanoscale”

(19) Yu Teng Tony Liang (MSE) Ph.D. thesis successfully defended on: May 30, 2013 “Functional carbon nanocomposite, optoelectronic, and catalytic coatings”

(20) Ken Everaerts (Chem) Ph.D. thesis successfully defended on: November 21, 2013 (joint with Tobin Marks)

“High capacitance hybrid organic-inorganic gate dielectrics for solution-processable electronic technologies”

(21) Chun-Hong Sham (MSE) Ph.D. thesis successfully defended on: October 16, 2014 “Investigating the non-covalent functionalization and chemical transformation of graphene”

(22) Laila Jaber-Ansari (MSE) Ph.D. thesis successfully defended on: October 30, 2014 “Application of carbon nanomaterials in lithium-ion batteries”

(23) Hunter Karmel (MSE) Ph.D. thesis successfully defended on: July 24, 2015 “Investigating the self-assembly and nanopatterning characteristics of organic molecular adlayers on silicon and graphene via scanning tunneling microscopy”

(24) Deep Jariwala (MSE) Ph.D. thesis successfully defended on: July 30, 2015 (joint with Tobin Marks)

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“Processing, properties, and applications of heterostructure devices from low-dimensional materials”

(25) Heather Arnold (MSE) Ph.D. thesis successfully defended on: August 20, 2015 “Probing charge transport and fluctuations at the two-dimensional semiconductor-dielectric interface”

(26) Jungwoo Ted Seo (MSE) Ph.D. thesis successfully defended on: December 10, 2015 “Centrifugation-based purification of emerging low-dimensional materials and their thin-film applications”

(27) Eric A. Pozzi (Chem) Ph.D. thesis successfully defended on: April 19, 2016 (joint with Richard Van Duyne)

“Advances in nanoscale Raman spectroscopy using plasmonics” (28) Brian T. Kiraly (MSE) Ph.D. thesis successfully defended on: May 13, 2016 (joint with N. P. Guisinger)

“Atomic-scale design, synthesis and characterization of two-dimensional material interfaces"

(29) Michael L. Geier (MSE) Ph.D. thesis successfully defended on: May 23, 2016 “Materials integration and doping of carbon nanotube-based logic circuits”

(30) Tejas A. Shastry (MSE) Ph.D. thesis successfully defended on: July 20, 2016 “Low-dimensional nanomaterials as active layer components in thin-film photovoltaics” (31) Kyle A. Luck (MSE) Ph.D. thesis successfully defended on: October 4, 2016 (joint with Tobin Marks)

“Tuning interfacial charge transfer and probing current fluctuations in optoelectronic soft materials”

(32) Julian J. McMorrow (MSE) Ph.D. thesis successfully defended on: January 13, 2017 (joint with Tobin Marks)

“Low-dimensional nanomaterials and molecular dielectrics for radiation-hard electronics”

(33) Christopher R. Ryder (MSE) Ph.D. thesis successfully defended on: February 13, 2017 “Characterizing and tailoring the properties of anisotropic two-dimensional nanomaterials”

(34) Nikhita D. Mansukhani (MSE) Ph.D. thesis successfully defended on: February 22, 2017 “Biofunctionalization and hazard assessment of semiconducting nanoelectronic materials”

(35) Yujin Shin (MSE) Ph.D. thesis successfully defended on: April 25, 2017 “Monodisperse multidimensional nanostructures via centrifugal separation”

(36) Ethan B. Secor (MSE) Ph.D. thesis successfully defended on: June 8, 2017 “Graphene inks with cellulosic dispersants: Development and applications for printed electronics”

(37) Andrew J. Mannix (MSE) Ph.D. thesis successfully defended on: July 18, 2017 (joint with N. P. Guisinger)

“Exploring the growth and characterization of synthetic elemental two-dimensional materials”

(38) Joohoon Kang (MSE) Ph.D. thesis successfully defended on: October 20, 2017 “Solution-based processing of monodisperse two-dimensional nanomaterials”

(39) Jade I. Balla (MSE) Ph.D. thesis successfully defended on: October 26, 2017 “Chemical functionalization of two-dimensional nanomaterials”

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(40) Linda M. Guiney (MSE) Ph.D. thesis successfully defended on: February 9, 2018 “Biological and environmental implications and applications of two-dimensional layered nanomaterials”

(41) Spencer Wells (MSE) Ph.D. thesis successfully defended on: September 25, 2018 “Processing and devices for chemically reactive two-dimensional materials”

(42) Xiaolong Liu (Appl Phys) Ph.D. thesis successfully defended on: October 11, 2018 “Probing and functionalizing emerging two-dimensional materials at the nanoscale”

(43) Megan Beck (MSE) Expected degree date: June, 2019 (44) Hadallia Bergeron (MSE) Expected degree date: June, 2019 (45) Shay Wallace (MSE) Expected degree date: June, 2019 (46) William A. Gaviria (MSE) Expected degree date: June, 2019 (47) David Lam (MSE) Expected degree date: June, 2020 (48) Nathan P. Bradshaw (MSE) Expected degree date: June, 2020 (49) Sam H. Amsterdam (Chem) Expected degree date: June, 2020 (joint with Tobin Marks) (50) Matthew S. Rahn (MSE) Expected degree date: June, 2021 (51) Sonal V. Rangnekar (MSE) Expected degree date: June, 2021 (52) Suyog Padgaonkar (MSE) Expected degree date: June, 2021 (joint with Emily Weiss) (52) Eden B. Aklile (MSE) Expected degree date: June, 2022 (53) Julia R. Downing (MSE) Expected degree date: June, 2022 (54) J. Tyler Gish (MSE) Expected degree date: June, 2022 (55) Norman Luu (MSE) Expected degree date: June, 2022 (56) Lindsay E. Chaney (MSE) Expected degree date: June, 2023 (57) Lidia Kuo (MSE) Expected degree date: June, 2023 (58) Stephanie E. Liu (MSE) Expected degree date: June, 2023 (59) Hong Youl (Mike) Park (MSE) Expected degree date: June, 2023 (60) Carlos G. Torres Castanedo (MSE) Expected degree date: June, 2023 (joint with Bedzyk) M.S. Students Supervised (1) Matthew W. Such (MSE) Degree date: Dec., 2002 “Nanoscale fabrication and characterization of hydrogen passivated Si(111) surfaces with

atomic force microscopy” (2) Andrew S. Baluch (MSE) Degree date: Dec., 2004

“Nanofabrication on silicon surfaces in ultra-high vacuum and atmospheric-pressure environments: A scanning tunneling microscopy study”

(3) Matthew J. Schmitz (MSE) Degree date: Dec., 2007 “Ambient atomic force microscope nanoscale oxidation of hydrogen-passivated silicon with conductive diamond coated probes”

(4) Joe W. Lee (MSE) Degree date: June, 2008 “Probing nanoporous anodized aluminum oxide with atomic force microscopy” (5) Ryan E. Brock (MSE) Degree date: June, 2011 “Electronically monodisperse single-walled carbon nanotube thin films as transparent

conducting anodes in organic photovoltaic devices” (6) Ian P. Murray (MSE) Degree date: June, 2012 “Graphene oxide interlayers for robust, high-efficiency organic photovoltaics” (7) Michael J. Born (MBP) Degree date: June, 2012 “Carbon nanotube based stationary phases for chiral chromatography”

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(8) Erika E. Swartz (MSE) Degree date: Dec., 2013 “Carbon-based photovoltaics and photocatalysis” (9) Amanda R. Walker (Chem) Degree date: Aug., 2015 “Structure-function relationships in hybrid organic-inorganic high-κ gate dielectrics” (10) Yichao Zhao (MSE) Degree date: Dec., 2015 “Anti-bacterial graphene oxide coatings” (11) Sarah Clark (MSE) Degree date: June, 2019 “Low frequency carrier kinetics in perovskite solar cells” Internal Ph.D. Thesis Committees (with degree date or expected degree date) (1) Xiwei Lin (MSE), 2000 (2) Dmitriy Gorelikov (MSE), 2000 (3) Joel Gregie (MSE), 2003 (4) Aaron Blattner (MSE), 2003 (5) Elizabeth Fabbroni (MSE), 2003 (6) James Hulvat (MSE), 2004 (7) Jutao Jiang (ECE), 2004 (8) He Yan (Chemistry), 2004 (9) Ming Su (MSE), 2004 (10) Ann Chiaramonti (MSE), 2005 (11) Yongseong Choi (MSE), 2005 (12) Anthony Escuadro (MSE), 2005 (13) Christopher Own (MSE), 2005 (14) F. Nelson Nunalee (MSE), 2005 (15) Duane Goodner (MSE), 2005 (16) Yong Zhu (MechE), 2005 (17) Myung-Han Yoon (Chemistry), 2006 (18) Krista Niece (MSE), 2006 (19) Arno Merkle (MSE), 2006 (20) Albert Hung (MSE), 2006 (21) Bei Peng (MechE), 2006 (22) Christina Freyman (MSE), 2006 (23) Marina Sofos (MSE), 2007 (24) Steven May (MSE), 2007 (25) Peter Hsieh (MSE), 2007 (26) David Andrews (Chemistry), 2008 (27) Brian Quezada (MSE), 2008 (28) Jon Allen (MSE), 2008 (29) Soo-Hyun Tark (MSE), 2008 (30) Hyuk-Jin Choi (Chemistry), 2008 (31) Zixiao Pan (MSE), 2008 (32) Yuan-Chieh Tseng (MSE), 2009 (33) Michael Irwin (Chemistry), 2009 (34) James Ciston (MSE), 2009 (35) Jui-Ching (Phillip) Lin (MSE), 2009 (36) Hanwei Gao (MSE), 2009

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(37) Bo Zhao (MSE), 2009 (38) Kevin Kohlstedt (ChemE), 2009 (39) Melanie Disabb (MSE), 2009 (40) Zhenxing Feng (MSE), 2011 (41) Young-geun Ha (Chemistry), 2011 (42) Nikhil Rangaraju (MSE), 2011 (43) Francisco Lopez Garibay (MSE), 2011 (44) Praneet Adusumilli (MSE), 2011 (45) Andres Becerra-Toledo (MSE), 2011 (46) Edy Wijaya (MSE), 2011 (47) Alexander Shveyd (Chemistry), 2011 (48) Jonathan Servaites (MSE), 2011 (49) Matthew Reuter (Chemistry), 2011 (50) Jason Mantei (MSE), 2012 (51) Lisa Fredin (Chemistry), 2012 (52) Jonathan Emery (MSE), 2012 (53) Matthew Jones (MSE), 2012 (54) John Kohoutek (EECS), 2012 (55) Myung-Gil Kim (Chemistry), 2012 (56) Jangdae Youn (Chemistry), 2012 (57) Michael DeVries Vermeer (Chemistry), 2012 (58) Shiho Kawashima (Civil Engineering), 2012 (59) Adam Morris-Cohen (Chemistry), 2012 (60) Stan Chou (MSE), 2013 (61) Matthew Sonntag (Chemistry), 2013 (62) Jonathan Hennek (Chemistry), 2013 (63) Stephanie Walter (Chemistry), 2013 (64) Kenneth D’Aquila (MSE), 2013 (65) Cary Hayner (ChemE), 2013 (66) Jaemyung Kim (MSE), 2013 (67) Martin McBriarty (MSE), 2014 (68) Jordan Klingsporn (Chem), 2014 (69) Scott Kirklin (MSE), 2014 (70) Andy Hung (BME), 2014 (71) Tuncay Ozel (MSE), 2015 (72) Nanjia Zhou (MSE), 2015 (73) David Snydacker (MSE), 2015 (74) KunHo Yoon (MSE), 2015 (75) DelRae Haag (ChemE), 2015 (76) Peijun Guo (MSE), 2015 (77) Henry Heitzer (Chemistry), 2015 (78) Kayla Culver (MSE), 2016 (79) Ankun Yang (MSE), 2016 (80) Sam Davis (Applied Physics), 2016 (81) Lintao Peng (Applied Physics), 2016 (82) Li Zeng (Applied Physics), 2016

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(83) Melanie Butler (Chem), 2016 (84) Matthew Glazer (MSE), 2016 (85) Xiao Chen (Applied Physics), 2016 (86) Yang Tang (EECS), 2016 (87) Sarah Howell (MSE), 2016 (88) Chan Myae Myae Soe (Chem), 2017 (89) Nicholas Eastham (Chem), 2017 (90) Kavita Chandra (MSE), 2017 (91) Michael Knudson (MSE), 2017 (92) Naihao Chiang (Applied Physics), 2017 (93) Xiaochen Ren (MSE), 2017 (94) Thomas Yu (MSE), 2017 (95) Li Zeng (Applied Physics), 2018 (96) Lintao Peng (Applied Physics), 2018 (97) Michael Mattei (Chemistry), 2018 (98) Emily Sprague-Klein (Applied Physics), 2018 (99) Michael Ashley (ChemE), 2018 (100) Xu Chen (Applied Physics), 2018 (101) Zhenpeng Yao (MSE), 2018 (102) Gavin Campbell, 2018 (103) Zizhuo Liu (EECS), 2018 (104) Yuan Gao (CivE), 2019 (105) Kyle McCall (Applied Physics), 2019 (106) Gyeongwon Kang (Chemistry), 2020 (107) Daniel Kwasnieksi (Chemistry), 2020 (108) Ran Li (MSE), 2020 (109) Ed Kluender (MSE), 2020 (110) Michael Moody (MSE), 2020 (111) Alexandra Brumberg (Chemistry), 2021 (112) Samantha Harvey (Chemistry), 2021 (113) Raymond Wang (Chemistry), 2021 (114) Yiran Wang (Chemistry), 2022 (115) Jeremy Amdur (Chemistry), 2022 (116) Wooje Chang (MSE), 2022 (117) Huanbo Jiang (Applied Physics), 2023 Internal M.S. Thesis Committees (with degree date or expected degree date) (1) Monica Salud (MSE), 2001 (2) Rafael Bras (MSE), 2005 (3) Jung Yen Chou (MSE), 2008 (4) Michael Cohen (MSE), 2014 (5) Sarah Clark (MSE), 2019 Undergraduate Supervision (1) Shih-Yao (Stan) Chou Honors Senior Project, 2001 (2) Cinthia Herrera Senior Project, 2001

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(3) Andrew Baluch Undergraduate Research Aide, 2000-2002 NSF MIN Program, Summer, 2002 Honors Senior Project, 2003

(4) Maryjoy Carnate Undergraduate Research Aide, Summer, 2001 NSF REU Program, Summer, 2002 (5) Meghan Campbell NSF REU Program, Summer, 2001 Undergraduate Research Aide, 2001-2002 (6) Kristen Weiss NSF REU Program, Summer, 2001 (7) Sai-Pong Leung MSE 399, 2001 (8) Christopher Horst MSE 399, 2001-2002 Ford Motor Company Undergraduate Researcher, 2002-2003 (9) Kyle Ritter NSF REU Program, Summer, 2002 (10) Matthew Schmitz MSE 399, 2002 NSF REU Program, 2002-2004 Undergraduate Research Aide, 2003 Honors Senior Project, 2005 (11) Leah Edelman Ford Motor Company Undergraduate Researcher, 2002-2003 NSF REU Program, 2004 Senior Project, 2005 (12) Judy Huang ISP 398, 2002-2003 (13) John Joo Undergraduate Research Aide, 2003 NSF REU Program, 2004 Honors Senior Project, 2005 (14) Samuel Spencer MSE 399, 2003 (15) Steve Akuamoah NSF REU Program, 2003-2004 (16) Christian Valley NSF MIN Program, Summer 2003 (17) Samantha Cruz NSF REU Program, Summer 2003 Ford Motor Company Undergraduate Researcher, 2003-2004 NSF REU Program, 2004-2005 (18) Shaun Elder NSF REU Program, Summer 2003 Undergraduate Research Aide, 2004-2005 (19) Jon Barr Senior Project, 2004 (20) Jin Suntivich NU Undergraduate Research Grant, Summer 2004 NSF REU Program, 2004-2005 (21) Jenny Collins NSF REU, Summer 2004 (22) Will Gathright Undergraduate Research Aide, Summer 2004 Senior Project, 2005 (23) James Fakonas Freshman Honors Research Project, 2004-2005 NSF REU, Summer 2005, Summer 2006, Summer 2007 Honors Senior Project, 2008 (24) Jack Cosgrove BS/MS Research Project, 2004-2005 (25) Jamie Wright Undergraduate Research Aide, Spring 2005 (26) Zhiyang (Alec) Wei NSF REU, Summer 2005 Senior Project, 2006 (27) Jenny Thomson NSF REU, Summer 2005 (28) Molly Melhem NSF REU, Summer 2006

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(29) Miguel Wong NSF REU, Summer 2006 (30) Frank Du NSF REU, Summer 2006, Summer 2007 Honors Senior Project, 2007 (31) Shengyao Li NSF REU, Summer 2006 (32) Christopher Chen NSF REU, Summer 2007 Honors Senior Project, 2009 (33) Christopher Liman NSF REU, Summer 2007 Honors Senior Project, 2008 (34) Wasut Pornpatcharapong Undergraduate Research Aide, Fall 2007 (35) Jesse Benck NSF REU, Academic Year 2007-2008 Honors Senior Project, 2009 (36) Ryan Ginder NSF REU, Summer 2008 (37) Alexandra Ladik NSF REU, Summer 2008 (38) Nicole Mahan NSF REU, Summer 2008 (39) Jungwoo Seo NSF REU, Summer 2008 Honors Senior Project, 2009 (40) Joohee Park NSF REU, Academic Year 2008-2009 (41) Ryan Brock Honors Senior Project, 2010 (42) Scott Fong NSF REU, Summer 2010 (43) Josue Lopez NSF REU, Summer 2010, 2011 (44) Alexander Antaris Undergraduate Research Aide, 2009-2012 (45) Colton Gits ISP 398, 2010-2012 (46) Cameron Kadleck Honors Senior Project, 2010-2013 (47) Tejas Shastry Honors Senior Project, 2010 (48) Jane Herriman Undergraduate Research Aide, 2011 (49) Wang Ji Undergraduate Research Aide, 2011 (50) Jacob Kelter Undergraduate Research Aide, 2012 (51) Ethan Secor Undergraduate Research Aide, 2012 (52) Stephen Filippone MRSEC REU, Summer 2012 (53) Edgar Olivera NSEC REU, Summer 2012 (54) Jianting He Undergraduate Research Aide, 2012- (55) Rajan Kumar Undergraduate Research Aide, 2012- (56) Sean McGinnis Senior Project, 2011-2013 (57) Andrew Rowberg Undergraduate Research Aide, 2013- (58) Spencer Saldaña Honors Senior Project, 2010-2013 (59) Theo Gao Undergraduate Research Aide, 2013- (60) Ritij Goel Undergraduate Research Aide, 2013- (61) Peter Kim Undergraduate Research Aide, 2013- (62) Shobhita Kramadhati MRSEC REU, Summer 2014 (63) Lillian Ma MRSEC REU, Summer 2014 (64) Johnathan O’Donnell IIN REU, Summer 2014 (65) Laura Pettersen Undergraduate Research Aide, 2013- (66) Jiaxin Yan MRSEC REU, Summer 2014 Visiting Scientists (1) Neil Schmidgall NSF REST Program, Summer 2002

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(2) Auste Vygantas NSF REST Program, Summer 2003 (3) Paolo Messina Argonne National Laboratory, 2007-2008 (4) James Fakonas NanoIntegris, 2008-2009 (5) Nathan Guisinger Argonne National Laboratory, 2008-2010 (6) Nathan Yoder NanoIntegris, 2008-2012 (7) David Comstock Argonne National Laboratory, 2010-2012 (8) Mariana de Castro Prado Universidade Federal de Minas Gerais, Brazil, 2012 Departmental Service (MSE, Chemistry) (1) MSE Undergraduate Recruiting Chair, 2001-2004 (2) MSE Undergraduate Recruiting Committee, 2000- (3) MSE Long Range Planning Committee, 2004- (4) MSE Undergraduate Advisor, 2003-2007 (5) Faculty Search Committee, 2005-2006 (6) MSE Undergraduate Curriculum Committee, 2006- (7) MSE Graduate Curriculum Committee, 2006- (8) Chemistry Diversity Committee, 2008- (9) “Future of Materials Engineering” Panelist, November 4, 2008 McCormick Service (1) McCormick Freshman Advisor, 2000-2003, 2006- (2) Preparing Future Engineering Faculty Panel, October 31, 2000 (3) Represented McCormick at Boeing, December 14, 2001 (4) Presentation for the McCormick Advisory Council, December 7, 2001 (5) McCormick New Faculty Workshop Panel, November 5, 2002 (6) Ford Dean’s Scholar Freshman Advisor, 2002-2003 (7) Electrical and Computer Engineering Solid State Faculty Search Committee, 2002-2003 (8) High School Honors Biology Internship Program Advisor, 2002-2003 (9) High School Honors Chemistry Internship Program Advisor, 2005-2006 (10) Director of the Murphy Society Undergraduate Nanoscale Research Program, 2003-2005 (11) Technology Assisted Learning in the McCormick School Workshop, March 21, 2003 (12) Presentation for PreviewNU, April 22, 2003, April 29, 2003, April 19, 2004, April 18, 2005,

and April 19, 2005 (13) Presentation for Engineering Analysis 3, May 30, 2003 (14) Mechanical Engineering Faculty Search Committee, 2006-2007 (15) Chair of the National Medal of Science Conference Committee, 2007-2008 (16) Presentation for the McCormick Advisory Council, October 10, 2008 (17) McCormick Global Ambassador Committee, 2008- (18) Promotion and Tenure Committee, 2012-2013, 2019-2021 (19) Panelist for the Symposium on Microgrids, Northwestern University, April, 10, 2018 University Service (1) British Scholarships Committee, 2001- (2) Searle Junior Fellow Program, 2001-2002 (3) Represented Northwestern University at Science Day in Washington, D.C., July 11-12, 2001

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(4) Faculty Advisor, Nanotechnology Alliance to Promote Innovation and Commercialization, 2003-

(5) Editorial Board Member for the Northwestern Undergraduate Research Journal, 2004- (6) Slivka Residential College Faculty Fellow, 2004- (7) Machine and Electronics Shop Committee, 2005- (8) Clean Room Committee, 2006-2010 (9) Limited Submissions Advisory Committee, 2006-2010 (10) Represented Northwestern University at the Coalition for National Science Funding

Meeting in Washington, D.C., June 26, 2007 (11) Ryan Senior Fellow, 2007- (12) Limited Submissions Advisory Committee (Chair), 2011- (13) Clean Room Committee (Chair), 2011- (14) NUANCE Advisory Committee (Chair), 2014- Center Involvement (1) Principal Investigator of a Northwestern University Shared Facilities Committee Grant

entitled, “Tip Preparation Sub-Facility,” $31,000, 2001 (2) Director of the Tip Preparation Sub-Facility, 2001- (3) Director of the Research Experience for Undergraduates Program, NU NSEC, 2002- (4) Leader of the Nanopatterning Synergistic Research Group, NU NSEC, 2002- (5) Executive Committee Member, NU NSEC, 2003- (6) Nanotechnology Materials World Module Committee, NU MRSEC, 2001-2004 (7) Facilities Advisory Committee, NU NSEC 2002-2004 (8) Member of the National Science Foundation Nanoscale Center for Learning and Technology

Reverse Site Visit Team, Arlington, Virginia, 4/28/04 (9) Member of the organizing committee for the NCLT Faculty Workshop on Teaching

Nanoscale Science and Engineering Concepts, 2005 (10) Member of the NU NSEC, NU ICEP, NU MRSEC, and NASA INAC, 2001- (11) Member of the organizing committee for the Bruker-NUANCE ‘Seeing at the Nanoscale’

Conference, 2011- External Committees and Other Service (1) Editorial Board, Review of Scientific Instruments, 2001-2003 (2) American Vacuum Society Prairie Chapter Executive Board, 2001- (3) Vice-Chair of the AVS Prairie Chapter, 2004-2005 (4) Chair of the AVS Prairie Chapter, 2006-2007 (5) American Vacuum Society Nanometer-scale Science and Technology Division Executive

Board Member, 2003-2005, 2007-2009 (6) National Science Foundation SBIR Review Panel, March 27-28, 2001 (7) National Science Foundation IMR/MRI Review Panel, April 30, 2002 (8) National Science Foundation IMR/MRI Review Panel, May 14-15, 2003 (9) National Science Foundation NUE Review Panel, February 2-3, 2004 (10) National Science Foundation NSEC Education and Outreach Panel, December 17, 2004 (11) Visiting Nanotechnology Lecturer at Ajou University, Suwon, Korea, September 1-4, 2003 (12) Invited Speaker at the NSF Workshop on Converging Technologies, Washington, D.C.,

September 23, 2003

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(13) Editor-in-Chief of Nanoscape (the journal of undergraduate research in nanoscience), 2003-2014

(14) Graduate Student Award Judge, Materials Research Society Spring Meeting, April 13, 2004 (15) TMS Device Research Conference Rump Session Panelist, June 22, 2004 (16) Program Committee for the SPIE Photonics West Conference on Quantum Sensing and

Nanophotonic Devices, 2004-2005 (17) Carbon Nanotube Photonics Session Chair, 2005 SPIE Photonics West Conference (18) National Academy of Engineering Frontiers of Engineering Symposium, Niskayuna, New

York , September 22-24, 2005 (19) Biomaterials Session Chair, 2005 Physics and Chemistry of Semiconductor Interfaces

Conference (20) Magnetic and Force Microscopy Session Chair, 2005 American Physical Society March

Meeting (21) Discussion Leader for the Electronics at Interfaces Session, 2005 Gordon Research

Conference on the Chemistry of Electronic Materials (22) Molecular and Biological Applications of Nanostructures Session Chair, 2005 AVS

International Symposium (23) Self-assembly and Self-organization for Nanostructure Formation and Characterization

Session Chair, 2005 International Symposium on Surface Science and Nanotechnology (24) Spin System Session Chair, 2005 Joint International Conference on New Phenomena in

Mesoscopic Systems and Surfaces and Interfaces of Mesoscopic Devices (25) Molecular Rotors Session Chair, 2005 American Chemical Society Fall Meeting (26) Nanostructures Session Chair, 2005 International Institute for Nanotechnology Symposium (27) Chair of the Organizing Committee for the AVS Prairie Chapter Annual Meeting, 2005 (28) Chair of the Organizing Committee for the Workshop on Molecular Conduction, 2004 (29) Program Committee Member for the Electronic Materials Conference, 2004- (30) Program Committee Member for the 2007 Physical Electronics Conference (31) Co-chair of the Molecular Electronics Symposium at the 2006 ACS Spring Meeting (32) Co-chair of the Nanostructures Focus Session at the 2006 APS March Meeting (33) Dynamics of Single Atoms, Molecules, and Clusters on Surfaces Session Chair, 2006 ACS

Fall Meeting (34) Nanoscale Imaging Techniques Session Chair, AVS 53rd International Symposium, 2006 (35) Carbon Nanotube Synthesis, Functionalization, and Separation Session Chair, 211th ECS

Meeting, 2007 (36) Panelist at the 52nd IEEE Holm Symposium, Montreal, Canada, September 27, 2006 (37) Member of the IEEE Nanomaterials Technical Committee, 2006- (38) Member of the Foreign Advisory Committee to the Department of Molecular Science and

Technology at Ajou University, Suwon, South Korea, 2007- (39) Electronic Properties of Carbon Nanotubes Session Chair, 2004 AVS International

Symposium (40) Editorial Advisory Board, Recent Patents in Nanotechnology, 2006- (41) Co-Editor, Materials Research Society Proceedings, Symposium EE of the Spring 2007

MRS Meeting (42) Chair of the Organizing Committee for the 2007 International Institute for Nanotechnology

Symposium, Evanston, Illinois, October 24, 2007 (43) National Science Foundation MRSEC Preproposal Review Panel, November 14-15, 2007

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(44) External member of the PhD Committee for Carla Aguirre, Department of Engineering Physics, University of Montreal, December 19, 2007

(45) Carbon Nanotube Networks Session Chair, 2008 MRS Spring Meeting (46) National Science Foundation MRSEC Reverse Site Visit Review Panel, June 10-12, 2008 (47) DTRA Workshop on a Strategic Vision for Chemical and Biological Defense, Atlanta,

Georgia, 8/7/08 – 8/8/08. (48) Frontiers of Nanoscience Session Organizer and Session Chair, 2008 AVS International

Symposium (49) Organizing Committee and Nanoelectronics Session Chair for the 2008 International

Institute for Nanotechnology Symposium, Evanston, Illinois, November 20, 2008 (50) Program Committee for the SPIE NanoScience and Engineering Conference, 2009 (51) Nanomaterials Session Chair, 2009 IEEE International Conference on Nanotechnology (52) Single-walled Carbon Nanotubes Session Chair, 2009 SPIE Optics and Photonics

Conference (53) Electronics from Solution Exfoliated Graphene Session Chair, 2009 MRS Fall Meeting (54) Nottingham Prize Session Chair, 2010 Physical Electronics Conference (55) Museum of Science and Industry Physical Sciences Exhibit Advisory Panel, 2002- (56) Alabama State University Center of Research Excellence in Science and Technology

External Advisory Board, 2008- (57) Physical Electronics Conference General Organizing Committee, 2008- (58) NT11 International Conference on the Science and Application of Nanotubes Organizing

Committee, 2010- (59) ChemOnTubes International Conference Organizing Committee, 2011- (60) Co-Chair of the National Science Foundation International Study of the Long-Term Impacts

and Future Opportunities for Nanoscale Science and Engineering, 2009- (61) Graphene Session Chair, 2010 International Vacuum Congress and International Conference

on Nanoscience and Technology (62) Nanomanufacturing and Nanomachines Session Chair, 2010 AVS International Symposium (63) Carbon Nanotubes and Nano-Carbon Materials Session Chair, 2010 International Chemical

Congress of Pacific Basin Societies (64) Carbon Nanotubes and Related Materials Session Chair, 2011 APS March Meeting (65) Carbon Nanostructures Session Chair, 2011 Villa Conference on Interactions among

Nanostructures (66) Carbon Nanoelectronics Session Chair, 2011 MRS Spring Meeting (67) Nanoscale Applications Session Chair, 9th Korea-U.S. Nanoforum, 2012 (68) One-Dimensional Nanowires and Nanotubes Session Chair, 2012 AVS International

Symposium (69) Nanomaterials of Energy Applications Session Chair, 2013 International Conference and

Exposition on Advanced Ceramics and Composites (70) Carbon Nanomaterials Session Chair, 2013 China Nano Conference (71) AVS Nanometer-scale Science and Technology Division Vice-Chair, 2009-2010 (72) AVS Nanometer-scale Science and Technology Division Chair, 2010-2011 (73) AVS Nanometer-scale Science and Technology Division Program Chair, 2011-2012 (74) Program Committee for the 19th International Vacuum Congress, 2012-2013 (75) Program Committee for the 5th International Conference on Novel Functional Carbon

Nanomaterials, 2013-2014

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(76) Program Committee for the International Conference on Nanoscience + Technology, 2013-2014

(77) American Physical Society Division of Materials Physics Fellow Nomination Committee, 2013-

(78) Symposium on Atomic Force Microscopy for Energy Applications Session Chair, 2013 International Conference on Non-Contact Atomic Force Microscopy

(79) Conference Organizing Committee for 14th International Meeting on Information Display 2013-2014

(80) Graphene Devices and Applications Session Chair, 2014 MRS Spring Meeting (81) Phosphorene Devices Session Chair, 2014 Informal Symposium on Phosphorene (82) Carbon Nanomaterial Devices Session Chair, 2014 SPIE Nanoscience and Engineering

Conference (83) Guest Editor for the Proceedings of the National Academy of Sciences USA, 2013- (84) Guest Editor for APL Materials, 2014 (85) Nanosense Scientific Advisory Board, 2012- (86) International Advisory Committee for the Center for Artificial Low Dimensional Electronic

Systems (CALDES), POSTECH, Korea, 2013- (87) SiNode Systems Technical Advisory Board, 2013- (88) Athena Global Energy Solutions Technical Advisory Board, 2013- (89) Testified at the U.S. House of Representatives Subcommittee on Research and Technology

hearing entitled “Nanotechnology: From Laboratories to Commercial Products,” May 20, 2014

(90) Review Coordinator of the Division on Engineering and Physical Sciences (DEPS) report entitled “3D Printing in Space,” commissioned by the National Research Council whose members are drawn from the councils of the National Academy of Sciences, the National Academy of Engineering, and the Institute of Medicine, 2014

(91) Surface Phenomena Session Chair, 2014 Workshop of the IBS Center for Artificial Low Dimensional Electronic Systems

(92) Interactions in Nanoparticle Ensembles Session Chair, XII International Conference on Nanostructured Materials, 2014

(93) Editorial Advisory Board, Applied Physics Letters and Journal of Applied Physics, 2015-2020

(94) Chemically Modified Nanomaterials Session Chair, Towards Reality in Nanoscale Materials VIII Workshop, 2015

(95) Energy Storage Applications Session Chair, Materials Research Society Spring Meeting, 2015

(96) Graphene and 2D Materials Satellite Symposium Session Chair, Sixteenth International Conference on the Science and Applications of Nanotubes, 2015

(97) Device Research Conference 2D Materials Rump Session Panelist, June 23, 2015 (98) 2D Semiconductor Session Chair, 228th Electrochemical Society Meeting, 2015 (99) 2D Nanomaterials Session Chair, Materials Research Society Fall Meeting, 2017 (100) Tailoring 2D Material Defects, Alloys, Structures, Properties, and Devices Session Chair,

Materials Research Society Fall Meeting, 2017 (101) Program Committee for the 21st International Conference on Solid State Ionics, 2017 (102) Program Committee for the 6th International Conference on Novel Functional Carbon

Nanomaterials, 2017-2018

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(103) Guest Editor of the special issue of Molecular Systems Design & Engineering entitled 2D Materials: Molecular Design and Engineering Perspectives, 2018

(104) American Physical Society Division of Materials Physics Fellowship Selection Committee, 2018

(105) Editorial Advisory Board, Advanced Functional Materials, 2018- (106) Review Coordinator of the National Academies Division on Engineering and Physical

Sciences (DEPS) workshop report entitled “Data-Driven Modeling for Additive Manufacturing of Metals,” 2019

(107) Editorial Advisory Board, Chemical Reviews, 2019- (108) Member of IEEE, MRS, AVS, AIP, APS, ACS, TMS, ASEE, AAAS, ASME, SPIE (109) Journal Referee for Review of Scientific Instruments, Applied Physics Letters, Journal of

Vacuum Science and Technology, Chemical Reviews, Langmuir, IEEE Transactions on Electron Devices, Materials Research Society Fall Meeting Proceedings, Journal of Physics and Chemistry of Solids, Journal of Applied Polymer Science, Superlattices and Microstructures, Chemical Physics Letters, Journal of the American Chemical Society, Microscopy Research and Technique, Interface Science, IEEE Transactions on Nanotechnology, Materials Science and Engineering A, Surface Science, Solid-State Electronics, Nanotechnology, Advanced Materials, Nano Letters, Nature, Physical Review Letters, Proceedings of the National Academy of Sciences USA, Journal of Physical Chemistry, Small, Journal of Cell Science, Science, Journal of Chemical Physics, Journal of Surface Science and Nanotechnology, Journal of Applied Physics, IEEE Transactions on Electron Devices, Physical Review B, Applied Physics B, Advanced Functional Materials, Journal of Electronic Materials, Nature Nanotechnology, Nature Materials, Carbon, Journal of Physical Chemistry C, Applied Surface Science, Physics Letters A, ACS Nano, Physica Status Solidi, Organic Electronics, Nano Research, Nature Biotechnology, Accounts of Chemical Research, Chemical Communications, ACS Applied Materials & Interfaces, Angewandte Chemie

(110) Proposal Reviewer for National Science Foundation, Science Foundation Ireland, National Sciences and Engineering Research Council of Canada, European Science Foundation, LYTMOS Group, United States Civilian Research and Development Foundation, Israel Science Foundation, Department of Energy, Hong Kong Research Grants Council, Petroleum Research Fund, Army Research Office, Global Climate and Energy Project, Arnold and Mabel Beckman Foundation, Defense Threat Reduction Agency, Air Force Office of Scientific Research, European Co-operation in the Field of Science and Technology

Courses Taught/CTEC Scores for Instruction Fall, 2000 750-201 Principles of the Properties of Materials 4.4/6.0 Spring, 2001 750-395 Nanomaterials 4.6/6.0 Fall, 2001 750-451 Advanced Physics of Materials 5.0/6.0 Winter, 2002 750-201 Principles of the Properties of Materials 4.8/6.0 Spring, 2002 750-395 Nanomaterials 5.4/6.0 Fall, 2002 750-201 Principles of the Properties of Materials 5.0/6.0 Winter, 2003 750-351-1 Introductory Physics of Materials 5.5/6.0 Spring, 2003 750-395 Nanomaterials 5.7/6.0 Fall, 2003 750-451 Advanced Physics of Materials 5.6/6.0

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Winter, 2004 750-351-1 Introductory Physics of Materials 5.7/6.0 Spring, 2004 750-376 Nanomaterials 5.1/6.0 Fall, 2004 750-451 Advanced Physics of Materials 6.0/6.0 Winter, 2005 750-351-1 Introductory Physics of Materials 5.7/6.0 Spring, 2005 750-376 Nanomaterials 5.6/6.0 Fall, 2005 750-451 Advanced Physics of Materials 5.4/6.0 Winter, 2006 750-351-1 Introductory Physics of Materials 5.6/6.0 Spring, 2006 750-376 Nanomaterials 5.3/6.0 Fall, 2006 750-405 Physics of Solids 5.6/6.0 Winter, 2007 750-351-1 Introductory Physics of Materials 5.8/6.0 Spring, 2007 750-451 Advanced Physics of Materials 5.6/6.0 Fall, 2007 750-405 Physics of Solids 5.3/6.0 Winter, 2008 750-351-1 Introductory Physics of Materials 5.5/6.0 Spring, 2008 750-451 Advanced Physics of Materials 5.4/6.0 Fall, 2008 750-451 Advanced Physics of Materials 5.6/6.0 Spring, 2009 750-405 Physics of Solids 5.5/6.0 Fall, 2009 750-451 Advanced Physics of Materials 5.6/6.0 Winter, 2010 750-376 Nanomaterials 5.7/6.0 Spring, 2010 750-405 Physics of Solids 5.2/6.0 Fall, 2010 750-451 Advanced Physics of Materials 5.6/6.0 Spring, 2011 750-405 Physics of Solids 5.2/6.0 Fall, 2011 750-451 Advanced Physics of Materials 5.5/6.0 Spring, 2012 750-405 Physics of Solids 5.3/6.0 Fall, 2012 750-451 Advanced Physics of Materials 5.7/6.0 Spring, 2013 750-405 Physics of Solids 5.0/6.0 Fall, 2013 750-451 Advanced Physics of Materials 5.5/6.0 Spring, 2014 750-405 Physics of Solids 5.3/6.0 Fall, 2014 750-451 Advanced Physics of Materials 5.6/6.0 Spring, 2015 750-405 Physics of Solids 5.0/6.0 Fall, 2015 750-451 Advanced Physics of Materials 5.4/6.0 Spring, 2016 750-405 Physics of Solids 5.2/6.0 Fall, 2016 750-451 Advanced Physics of Materials 5.4/6.0 Spring, 2017 750-405 Physics of Solids 5.0/6.0 Fall, 2017 750-451 Advanced Physics of Materials 5.6/6.0 Spring, 2018 750-405 Physics of Solids 5.5/6.0 Fall, 2018 750-451 Advanced Physics of Materials 5.6/6.0 Winter, 2019 750-405 Physics of Solids 5.0/6.0 Curriculum Development (1) Developed new senior-level undergraduate course entitled Nanomaterials, 2001-2006 (2) Searle Center for Teaching Excellence Fellow, 2001-2002 (3) Nominee for the McCormick School of Engineering and Applied Science Teacher of the

Year Award, 2003 (4) Teacher of the Year in the Department of Materials Science and Engineering, 2003 (5) Associated Student Government Faculty/Administrator Honor Roll, 2003-2004

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(6) Principal Investigator and Director of a Murphy Society Grant entitled, “Undergraduate Projects in Nanoscale Engineering and Design,” $70,000, 2003-2005

(7) Principal Investigator of a National Science Foundation Grant entitled, “NUE: Development of a Nanotechnology Undergraduate Education Global Network,” $100,000, 2003-2004

(8) Developed a lecture entitled “Introduction to Nanoelectronics” for practicing engineers that was an invited presentation at the ASME Nano Training Bootcamp, 2003-2006

(9) Developed a short course entitled “Introduction to Nanomaterials” that was taught as a series of five lectures at Ajou University, Suwon, Korea, 2003

(10) Guest lecture in Chemical Engineering 478 entitled “Nanoscale Biological Sensors,” 2004 (11) Editorial Board Member for the Northwestern Undergraduate Research Journal, 2004 (12) Developed a tutorial entitled “Probing molecular conduction with scanning probe

microscopy” that was an invited presentation at the 2nd Workshop on Molecular Conduction, Evanston, Illinois, 2004

(13) Developed a series of three lectures for non-scientists entitled “Introduction to Nanometer-Scale Science and Technology” that was taught in MSE 101, Evanston, Illinois, 2005

(14) Developed a series of two lectures entitled “Scanning probe microscopy at the single molecule level” that was taught at the Bioinspired Nanoscience and Molecular Machines PASI Workshop, Bariloche, Argentina, 2005

(15) Guest lecture at the Northwestern University All Scout Nano Event, Evanston, Illinois, March 19, 2005; March 18, 2006

(16) Developed a tutorial entitled “Introduction to nanometer scale science and technology” that was taught at the American Institute of Chemical Engineering Chicago Section Symposium, Chicago, Illinois, 2005

(17) Developed a tutorial entitled “Nanoelectronics: Device physics and fabrication technology” that was taught at the NanoCommerce/SEMI NanoForum, Chicago, Illinois, 2005

(18) Member of the organizing committee for the NCLT Faculty Workshop on Teaching Nanoscale Science and Engineering Concepts, 2005

(19) Developed a series of two lectures entitled “Probing molecular electronics with scanning probe microscopy” that was taught at the National Science Foundation Summer Institute on Micro and Nano Devices with Applications to Biology and Nanoelectronics, Evanston, Illinois, 2006. This lecture was also taught to Professor Venkat Chandrasekhar’s freshman seminar class, Evanston, Illinois, 2006-2007.

(20) Developed a short course entitled “Introduction to nanoelectronics” that was taught as a series of two lectures at the Pan-American Advanced Studies Institute Program on Nano and Biotechnology, Bariloche, Argentina, 2006

(21) Developed a short course entitled “Introduction to nanoelectronics” that was taught as a series of four lectures at Ajou University, Suwon, Korea, 2007

(22) Developed a short course entitled “Introduction to lithography and carbon nanotubes” that was taught as a series of five lectures at the National Science Foundation Summer Institute on Nano Mechanics and Materials, Evanston, Illinois, 2007.

(23) Moderator for the Northwestern University Science Policy Action Network event entitled “ELECTION 2008: Presidential Perspectives on Science and Technology,” Evanston, Illinois, October 15, 2008

(24) Guest speaker on “Introduction to nanometer scale science and technology” at the Nanotechnology Town Hall Meeting, Evanston, Illinois (12/2/08).

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Sponsored Projects (Note: Funding Level Represents Hersam’s Share of the Grant) 2000-2001 Research Expenditures: $71,868 2001-2002 Research Expenditures: $411,498 2002-2003 Research Expenditures: $532,240 2003-2004 Research Expenditures: $743,730 2004-2005 Research Expenditures: $1,030,485 2005-2006 Research Expenditures: $1,081,190 2006-2007 Research Expenditures: $1,300,520 2007-2008 Research Expenditures: $1,325,399 2008-2009 Research Expenditures: $1,537,908 2009-2010 Research Expenditures: $2,220,347 2011-2012 Research Expenditures: $1,968,769 2012-2013 Research Expenditures: $2,185,318 2013-2014 Research Expenditures: $3,912,908 2014-2015 Research Expenditures: $3,472,227 2015-2016 Research Expenditures: $3,332,733 2016-2017 Research Expenditures: $3,759,366 2001-2002 Academic Year Salary Recovery: 11.1% 2002-2003 Academic Year Salary Recovery: 14.3% 2003-2004 Academic Year Salary Recovery: 16.5% 2004-2005 Academic Year Salary Recovery: 17.1% 2005-2006 Academic Year Salary Recovery: 16.6% 2006-2007 Academic Year Salary Recovery: 16.1%

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2007-2008 Academic Year Salary Recovery: 11.3% 2008-2009 Academic Year Salary Recovery: 11.3% 2009-2010 Academic Year Salary Recovery: 22.9% 2010-2011 Academic Year Salary Recovery: 20.5% 2011-2012 Academic Year Salary Recovery: 18.6% 2012-2013 Academic Year Salary Recovery: 24.7% 2013-2014 Academic Year Salary Recovery: 12.5% 2014-2015 Academic Year Salary Recovery: 17.6% 2015-2016 Academic Year Salary Recovery: 10.8% 2016-2017 Academic Year Salary Recovery: 11.1% 2017-2018 Academic Year Salary Recovery: 12.4% Agency: Arnold and Mabel Beckman Foundation Young Investigator Award Project Title: “Yoctomolar Surface Chemistry and Biology” Role: PI Support Period: 9/1/01 – 8/31/05 Funding Level: $240,000 Agency: National Science Foundation CAREER Award Project Title: “CAREER: Nanoelectronic and Nanophotonic Characterization of Hybrid Hard and Soft Materials” Role: PI Support Period: 12/1/01 – 11/30/06 Funding Level: $450,000 Agency: National Science Foundation Project Title: “REU Supplement to CAREER: Nanoelectronic and Nanophotonic Characterization of Hybrid Hard and Soft Materials” Role: PI Support Period: 6/1/02 – 11/30/02 Funding Level: $12,725 Agency: National Science Foundation Project Title: “REU Supplement to CAREER: Nanoelectronic and Nanophotonic Characterization of Hybrid Hard and Soft Materials”

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Role: PI Support Period: 6/1/03 – 11/30/06 Funding Level: $60,000 Agency: National Science Foundation Project Title: “NUE: Development of a Nanotechnology Undergraduate Education Global Network” Role: PI Support Period: 6/15/03 – 5/31/05 Funding Level: $100,000 Agency: Rockefeller Brothers Fund Biomedical Pilot Initiative Project Title: “DNA Nanoarrays for Gene Identification” Role: PI Support Period: 12/1/01 – 8/31/03 Funding Level: $25,000 Agency: Institute for Bioengineering and Nanoscience in Advanced Medicine Project Title: “High Density Biomedical Nanosensors” Role: PI Support Period: 4/1/01 – 4/30/03 Funding Level: $47,000 Agency: National Science Foundation Nanoscale Science and Engineering Center Project Title: “Ultra-high Vacuum Atomic Force Microscope Upgrades” Role: PI Support Period: 4/1/03 – 8/31/03 Funding Level: $30,000 Agency: Northwestern University Shared Facilities Committee Project Title: “Tip Preparation Sub-Facility” Role: PI Support Period: 5/1/01 – 7/31/01 Funding Level: $31,000 Agency: Murphy Society Project Title: “Undergraduate Projects in Nanoscale Engineering and Design” Role: PI Support Period: 1/1/03 – 8/31/05 Funding Level: $70,000 Agency: U.S. Army Research Office Defense University Research Initiative in Nanotechnology Project Title: “Molecular Rotors” Role: Co-PI Support Period: 5/1/01 – 4/30/06 Funding Level: $650,000

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Agency: NASA Project Title: “Institute for Nanoelectronics and Computing” Role: Co-PI Support Period: 9/1/02 – 8/31/07 Funding Level: $500,000 Agency: National Science Foundation Project Title: “Nanoscale Science and Engineering Center for Integrated Nanopatterning and Detection Technologies” Role: Co-PI Support Period: 9/1/01 – 8/31/06 Funding Level: $500,000 Agency: National Science Foundation Nanoscale Interdisciplinary Research Team Project Title: “Ultra Nano Crystalline Diamond for MEMS/NEMS Applications” Role: Co-PI Support Period: 9/1/03 – 8/31/07 Funding Level: $300,000 Agency: National Science Foundation Project Title: “Institute for Environmental Catalysis” Role: Co-PI Support Period: 9/1/02 – 8/31/03 Funding Level: $35,500 Agency: Department of Energy Project Title: “Institute for Environmental Catalysis” Role: Co-PI Support Period: 9/1/03 – 8/31/04 Funding Level: $60,000 Agency: National Science Foundation Materials Research Science and Engineering Center Project Title: “Application of Optical Nanoprobe Scanning Tunneling Microscopy to Molecular Electronics and Nanosensors” Role: Co-PI Support Period: 3/1/04 – 2/28/05 Funding Level: $72,500 Agency: National Science Foundation Project Title: “Acquisition of FTIR spectrometer for research and education in properties of molecular thin films, surfaces, and interfaces” Role: Co-PI Support Period: 9/1/02 – 8/31/03 Funding Level: $107,341

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Agency: National Science Foundation Project Title: “Acquisition of an Integrated Network Server System for Research and Education in Computational Methods” Role: Co-PI Support Period: 9/1/02 – 8/31/03 Funding Level: $93,212 Agency: National Science Foundation Major Research Instrumentation Program Project Title: “Development of a New Optical Nanoprobe Scanning Tunneling Microscope” Role: Co-PI Support Period: 9/1/03 – 8/31/05 Funding Level: $380,000 Agency: U. S. Army Research Office Defense University Research Instrumentation Program Project Title: “Molecular Rotor Characterization System” Role: Co-PI Support Period: 4/1/03 – 3/31/04 Funding Level: $40,000 Agency: Baxter Healthcare Corporation Project Title: “Conductive and Patternable Supramolecular Biocircuitry” Role: Co-PI Support Period: 12/1/03 – 11/30/04 Funding Level: $68,000 Agency: National Science Foundation Project Title: “National Center for Learning and Teaching in Nanoscale Science and Engineering” Role: Co-PI Support Period: 1/1/05 – 12/31/05 Funding Level: $50,000 Agency: National Institute of Standards and Technology Project Title: “Summer Undergraduate Research Fellowship” Role: PI Support Period: 5/24/04 – 9/30/05 Funding Level: $8,800 Agency: Alfred P. Sloan Foundation Project Title: “Sloan Research Fellowship” Role: PI Support Period: 9/1/05 – 8/31/09 Funding Level: $45,000 Agency: Office of Naval Research Young Investigator Award Project Title: “Silicon-based Molecular Electronics”

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Role: PI Support Period: 6/1/05 – 5/31/08 Funding Level: $300,000 Agency: Army Research Office Young Investigator Award Project Title: “Nanoscale Probing of Electrical Signals in Biological Systems” Role: PI Support Period: 5/1/05 – 4/30/10 Funding Level: $500,000 Agency: United States Army Research and Materiel Command (USAMRMC) Telemedicine and Advanced Technology Research Center (TATRC) Project Title: “Optical Sensing of Chemical and Biological Agents using Encapsulated Single-Walled Carbon Nanotubes” Role: Co-PI Support Period: 5/1/05 – 4/30/06 Funding Level: $168,000 Agency: National Science Foundation Project Title: “NIRT: Molecule/Semiconductor Heterostructure Devices” Role: Co-PI Support Period: 9/1/05 – 8/31/09 Funding Level: $400,000 Agency: National Science Foundation Project Title: “Materials Research Science and Engineering Center” Role: Co-PI Support Period: 9/1/05 – 8/31/10 Funding Level: $300,000 Agency: National Science Foundation Project Title: “NIRT: Molecular Arrays and Electronic Devices Based on Novel One-Dimensional Nanopore Arrays” Role: co-PI Support Period: 7/1/06 – 6/30/10 Funding Level: $400,000 Agency: NanoIntegris Project Title: “Optimizing Density Gradient Centrifugation of Single-Walled Carbon Nanotubes” Role: PI Support Period: 2/1/07 – 12/31/08 Funding Level: $150,000 Agency: National Science Foundation Project Title: “Structure, Properties, and Processing of Chirality-Resolved Single-Walled Carbon Nanotubes”

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Role: PI Support Period: 6/1/07 – 5/31/10 Funding Level: $300,000 Agency: National Science Foundation Project Title: “REU Site in Nanoscale Science and Engineering” Role: PI Support Period: 3/1/08 – 2/29/11 Funding Level: $243,706 Agency: Army Research Office Defense University Research Instrumentation Program Project Title: “Instrumentation for Nanoscale Probing of Electrical Signals in Biological Systems” Role: PI Support Period: 6/1/08 – 5/31/09 Funding Level: $149,000 Agency: Office of Naval Research Project Title: “High Throughput Sub-10nm Fabrication for Nanoelectronics” Role: PI Support Period: 12/15/08 – 12/14/10 Funding Level: $1,000,000 Agency: Office of Naval Research Defense University Research Instrumentation Program Project Title: “Instrumentation for Monodisperse Nanoelectronic Materials Processing” Role: PI Support Period: 6/1/09 – 5/31/10 Funding Level: $200,000 Agency: NSF-NRI Program Project Title: “Generating, Probing, and Manipulating Excitons in Carbon-Based Nanomaterials” Role: co-PI Support Period: 9/1/09 – 8/31/12 Funding Level: $420,000 Agency: Department of Energy Project Title: “SISGR: Single Molecule Chemical Imaging at Femtosecond Time Scales” Role: PI Support Period: 9/15/09 – 9/14/12 Funding Level: $3,600,000 Agency: National Science Foundation Project Title: “Preparation, Characterization, and Application of Monodisperse Carbon-Based Nanomaterials” Role: PI Support Period: 7/1/10 – 6/30/13

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Funds Requested: $360,000 Agency: Office of Naval Research Project Title: “Atomically Precise Control and Characterization of Graphene Electronic Properties” Role: PI Support Period: 4/1/11 – 3/31/14 Funds Requested: $450,000 Agency: Office of Naval Research MURI Project Title: “Roll-to-Roll, High Speed Printing of Multi-functional, Distributed Sensor Networks for Enhancing the Brain-Machine Interface” Role: co-PI Support Period: 7/1/11 – 6/30/16 Funds Requested: $1,000,000 Agency: W. M. Keck Foundation Project Title: “Establishing New Classes of Tunable Two-Dimensional Nanomaterials via Atomically Precise Chemical Modification of Graphene” Role: PI Support Period: 7/1/11 – 6/30/14 Funds Requested: $1,000,000 Agency: NASA Project Title: “Excitonics based on carbon nanomaterials: A pathway toward low-power, high-speed, and radiation-hard computation” Role: PI Support Period: 9/1/11 – 8/31/12 Funds Requested: $66,000 Agency: NASA Project Title: “Integrating Two-Dimensional Nanomaterials and Molecular Dielectrics for Radiation-Hard Non-Volatile Memory” Role: PI Support Period: 8/1/12 – 8/31/13 Funds Requested: $66,000 Agency: DOE Project Title: “SISGR: Ultrafast Molecular Scale Chemical Imaging” Role: PI Support Period: 9/15/12 – 9/14/15 Funds Requested: $3,600,000 Agency: ONR Project Title: “Instrumentation for Chemically Functionalized Graphene Nanoelectronics” Role: PI

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Support Period: 6/15/13 – 6/14/14 Funds Requested: $595,366 Agency: NSF Project Title: “EFRI 2-DARE: Scalable Growth and Fabrication of Anti-Ambipolar Heterojunction Devices” Role: co-PI Support Period: 9/1/14 – 8/31/18 Funds Requested: $2,000,000 Agency: ONR Project Title: “'Functionalized Two-Dimensional Nanoelectronic Heterostructures'” Role: PI Support Period: 7/1/14 – 6/30/17 Funds Requested: $540,000 Agency: NSF Project Title: “Solution-Processed Monodisperse Nanoelectronic Heterostructures” Role: PI Support Period: 7/1/15 – 6/30/19 Funds Requested: $375,000 Agency: ONR Project Title: “'Instrumentation for Functionalized Two-Dimensional Nanoelectronic Heterostructures'” Role: PI Support Period: 9/1/16 – 8/31/17 Funds Requested: $900,000 Agency: Sigma-Aldrich Project Title: “Scalable Production of Electronic Inks Based on Graphene” Role: PI Support Period: 11/1/16 – 10/31/17 Funds Requested: $137,000 Agency: NSF Project Title: “MRSEC: Center for Multifunctional Materials” Role: PI Support Period: 9/1/17 – 8/31/23 Funds Requested: $15,600,000 Agency: NSF Project Title: “SNM: Scalable Nanomanufacturing of Graphene-Based Real-Time Water Sensors through Customized Inkjet Printing” Role: PI Support Period: 8/1/17 – 7/31/21

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Funds Requested: $480,000 Agency: Exelon Project Title: “Graphene-Enhanced Cathodes for Next-Generation Lithium-Ion Batteries” Role: PI Support Period: 6/1/17 – 5/31/20 Funds Requested: $1,020,000 Agency: ONR Project Title: “Surface and Interface Engineering of van der Waals Nanoelectronic Heterostructures” Role: PI Support Period: 7/1/17 – 6/30/20 Funds Requested: $600,000 Agency: MilliporeSigma Project Title: “Hexagonal Boron Nitride Nanomaterial Inks as Separators and Solid Electrolytes for Lithium-Ion Batteries” Role: PI Support Period: 1/1/18 – 12/31/18 Funds Requested: $137,000 Agency: DOE Project Title: “Creating and Interfacing Designer Chemical Qubits” Role: co-PI Support Period: 9/1/18 – 8/31/21 Funds Requested: $600,000 Agency: ONR Project Title: “Instrumentation for Surface Engineered van der Waals Nanoelectronic Heterostructures'” Role: PI Support Period: 6/15/19 – 6/14/20 Funds Requested: $739,851 Agency: MilliporeSigma Project Title: “Printable Hexagonal Boron Nitride Gel Electrolytes for Electronics and Energy Storage” Role: PI Support Period: 7/1/19 – 6/30/20 Funds Requested: $111,305 Agency: Volexion Project Title: “Scalable Integration of Graphene-Enhanced Coatings for High-Energy Lithium-Ion Battery Cathodes” Role: PI

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Support Period: 7/1/19 – 6/30/19 Funds Requested: $90,000 Pending Proposals Agency: NSF Project Title: “Molecular Qubit Analytical Testing, Understanding, and Measurement Facility (M-QuAnTUM)” Role: co-PI Support Period: 9/1/18 – 8/31/23 Funds Requested: $2,600,000 Agency: NSF Project Title: “Two-Dimensional Nanomaterial-Based Hybrid Membranes for Desalination of Food Processing Wastewater” Role: co-PI Support Period: 1/1/20 – 12/31/22 Funds Requested: $220,000 Agency: Arnold and Mabel Beckman Foundation Project Title: “Increasing Utility of Two-Dimensional Boron Materials through Chemical Functionalization” Role: PI Support Period: 7/1/20 – 6/30/22 Funds Requested: $180,000 Agency: DOE EERE Project Title: “Continuous-Flow Solvothermal Manufacturing of Advanced Graphene Coatings for Emerging Li-Ion Battery Materials” Role: co-PI Support Period: 7/1/20 – 6/30/23 Funds Requested: $540,000 Agency: NSF Project Title: “Probing Fundamental Magneto-Electronic Properties of Two-Dimensional Metal Halides” Role: PI Support Period: 7/1/20 – 6/30/23 Funds Requested: $420,000 Patents Issued [52] “System and method for anti-ambipolar heterojunctions from solution-processed semiconductors,” D. M. Jariwala, V. K. Sangwan, W. Xu, H. Kim, T. J. Marks, and M. C. Hersam, U.S. Patent #10,491,206 issued 11/26/19.

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[51] “Hybrid silicon lasers and amplifiers with 2D phosphorene film,” C. Husko, J. R. Guest, M. C. Hersam, J. Kang, J. D. Wood, and X. Checoury, U. S. Patent #10,374,385 issued 8/6/19. [50] “Functionalization of carbon nanotubes with metallic moieties,” G. N. Ostojic and M. C. Hersam, U.S. Patent #10,384,935 issued 8/20/19. [49] “Graphene-based ink compositions for three-dimensional printing applications,” A. E. Jakus, E. B. Secor, M. C. Hersam, and R. N. Shah, U.S. Patent #10,350,329 issued 7/16/19. [48] “Stable aqueous dispersions of optically and electronically active phosphorene,” J. Kang, J. D. Wood, and M. C. Hersam, U.S. Patent #10,343,909 issued 7/9/19. [47] “Enhanced conductivity, adhesion, and environmental stability of printed graphene inks with nitrocellulose,” E. B. Secor, T. Z. Gao, and M. C. Hersam, U.S. Patent #10,280,317 issued 5/7/19. [46] “Methods for sorting nanotubes by wall number,” A. A. Green and M. C. Hersam, U.S. Patent #10,265,646 issued 4/23/19. [45] “Sorting two-dimensional nanomaterials by thickness,” A. A. Green and M. C. Hersam, U.S. Patent #10,179,841 issued 1/15/19. [44] “Separation of single-walled carbon nanotubes by electronic type using block copolymers,” A. L. Antaris, A. A. Green, and M. C. Hersam, U.S. Patent #10,037,832 issued 7/31/18. [43] “Methods for preparation of concentrated graphene compositions and related composite materials,” Y. T. Liang and M. C. Hersam, U.S. Patent #10,030,161 issued 7/24/18. [42] “Gate-tunable p-n heterojunction diode, and fabrication method and application of same,” D. M. Jariwala, V. K. Sangwan, and M. C. Hersam, U.S. Patent #9,972,799 issued 5/15/18. [41] “Ultralow power carbon nanotube logic circuits and method of making same,” M. L. Geier, P. L. Prabhumirashi, W. Xu, H. Kim, and M. C. Hersam, U.S. Patent #9,947,724 issued 4/17/18. [40] “System and method for anti-ambipolar heterojunctions from solution-processed semiconductors,” D. M. Jariwala, V. K. Sangwan, W. Xu, H. Kim, T. J. Marks, and M. C. Hersam, U.S. Patent #9,929,725 issued 3/27/18. [39] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, U.S. Patent #9,926,195 issued 3/27/18. [38] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Taiwanese Patent #1,617,506 issued 3/11/18.

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[37] “Methods for preparation of concentrated graphene ink compositions and related composite materials,” E. B. Secor, Y. T. Liang, P. L. Prabhumirashi, K. P. Puntambekar, B. Y. Ahn, J. A. Lewis, and M. C. Hersam, U. S. Patent #9,902,866 issued 2/27/18. [36] “Sorting two-dimensional nanomaterials by thickness,” J. Zhu, A.A. Green, and M. C. Hersam, U.S. Patent #9,890,043 issued 2/13/18. [35] “High-resolution patterning of graphene by screen and gravure printing for highly flexible printed electronics,” E. B. Secor, S. Lim, W. J. Hyun, C. D. Frisbie, L. F. Francis, and M. C. Hersam, U.S. Patent #9,840,634 issued 12/12/17. [34] “Methods for preparation of concentrated graphene ink compositions and related composite materials,” E. B Secor, P. L. Prabhumirashi, K. P. Puntambekar, M. L. Geier, Y. T. Liang, and M. C. Hersam, U.S. Patent #9,834,693 issued 12/5/17. [33] “Sorting process of nanoparticles and applications of same,” T. P. Tyler, A.-I. Henry, R. P. Van Duyne, and M. C. Hersam, U.S. Patent #9,802,818 issued 10/31/17. [32] “Ultralow power carbon nanotube logic circuits and method of making same,” M. L. Geier, P. L. Prabhumirashi, W. Xu, H. Kim, and M. C. Hersam, U.S. Patent #9,613,879 issued 4/4/17. [31] “Gate-tunable atomically-thin memristors and methods for preparing same and applications of same,” V. K. Sangwan, D. M. Jariwala, I. S. Kim, T. J. Marks, L. J. Lauhon, and M. C. Hersam, U.S. Patent #9,515,257 issued 12/6/16. [30] “Gate-tunable p-n heterojunction diode, and fabrication method and application of same,” D. M. Jariwala, V. K. Sangwan, and M. C. Hersam, U.S. Patent #9,472,686 issued 10/18/16. [29] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Chinese Patent #ZL 201410298770.9 issued 8/24/16. [28] “Sorting two-dimensional nanomaterials by thickness,” A. A. Green and M. C. Hersam, U.S. Patent #9,416,010 issued 8/16/16. [27] “Methods of making non-covalently bonded carbon-titania nanocomposite thin films and applications of the same,” Y. T. Liang, B. K. Vijayan, K. A. Gray, and M. C. Hersam, U.S. Patent #9,393,550 issued 7/19/16. [26] “Separation of single-walled carbon nanotubes by self-forming density gradient ultracentrifugation,” J.-W. T. Seo, A. L. Antaris, A. A. Green, and M. C. Hersam, U.S. Patent #9,266,735 issued 2/23/16. [25] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Taiwanese Patent #1519468 issued 2/1/16.

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[24] “Sorting two-dimensional nanomaterials by thickness,” J. Kang, J.-W. T Seo, A. A. Green, and M. C. Hersam, U. S. Patent #9,221,064 issued 12/29/15. [23] “Sorting two-dimensional nanomaterials by thickness,” A. A. Green and M. C. Hersam, U.S. Patent #9,114,405 issued 8/25/15. [22] “Methods for preparation of concentrated graphene compositions and related composite materials,” Y. T. Liang and M. C. Hersam, U.S. Patent #9,079,764 issued 7/14/15. [21] “Separation of single-walled carbon nanotubes by electronic type using block copolymers,” A. L. Antaris, A. A. Green, and M. C. Hersam, U.S. Patent #9,034,812 issued 5/19/15. [20] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Chinese Patent #ZL 200780032506.9 issued 4/29/15. [19] “Highly concentrated nano-reinforcement suspensions for cementitious materials and method of reinforcing such materials,” S. P. Shah, M. S. Konsta-Gdoutos, Z. S. Metaxa, J.-W. T. Seo, and M. C. Hersam, U.S. Patent #8,865,107 issued 10/21/14. [18] “Sorting two-dimensional nanomaterials by thickness,” A. A. Green and M. C. Hersam, U.S. Patent #8,852,444 issued 10/7/14. [17] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Korean Patent #10-1425690 issued 7/25/14. [16] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Canadian Patent #2,661,638 issued 7/15/14. [15] “Method of enhanced lithiation of doped silicon carbide via high temperature annealing in an inert atmosphere,” A. L. Lipson, S. Bandyopadhyay, H. J. Karmel, M. J. Bedzyk, and M. C. Hersam, U.S. Patent #8,734,674 issued 5/27/14. [14] “Separation of carbon nanotubes in density gradients,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Korean Patent #10-1333936 issued 11/21/13. [13] “Multifunctional nanocomposites of carbon nanotubes and nanoparticles formed via vacuum filtration,” G. N. Ostojic, Y. T. Liang, and M. C. Hersam, U.S. Patent #8,562,905 issued 10/22/13. [12] “Separation of carbon nanotubes in density gradients,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Canadian Patent #2600922 issued 6/4/13.

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[11] “Separation of carbon nanotubes in density gradients,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Japanese Patent #5215672 issued 3/8/13. [10] “Transparent electrical conductors prepared from sorted carbon nanotubes and methods of preparing same,” A. A. Green and M. C. Hersam, U.S. Patent #8,323,784 issued 12/4/12. [9] “Nanoscale, spatially-controlled Ga doping of undoped transparent conducting oxide films,” N. E. S. Cortes, T. J. Marks, and M. C. Hersam, U.S. Patent #8,236,680 issued 8/7/12. [8] “Separation of carbon nanotubes in density gradients,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, U.S. Patent #8,110,125 B2 issued 2/7/12. [7] “Methods and apparatus for spatially resolved photocurrent mapping of operating organic photovoltaic devices using atomic force photovoltaic microscopy,” B. J. Leever and M. C. Hersam, U.S. Patent #8,099,792 issued 1/17/12. [6] “Separation of carbon nanotubes in density gradients,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Chinese Patent #ZL 200680015296.8 issued 11/30/11. [5] “System and methods of laser assisted field induced oxide nanopatterning,” L. S. C. Pingree and M. C. Hersam, U.S. Patent #7,976,765 issued 7/12/11. [4] “Bridge-enhanced nanoscale impedance microscopy,” L. S. C. Pingree and M. C. Hersam, U.S. Patent #7,705,617 issued 4/27/10. [3] “Separation of carbon nanotubes in density gradients,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, U.S. Patent #7,662,298 issued 2/16/10. [2] “Cryogenic variable temperature scanning tunneling microscope,” E. T. Foley and M. C. Hersam, U.S. Patent #7,414,250 issued 8/19/08. [1] “Methods and apparatus for spatially resolved electroluminescence of operating organic light-emitting diodes using conductive atomic force microscopy,” L. S. C. Pingree and M. C. Hersam, U.S. Patent #7,358,490 issued 4/15/08. Patents Pending [46] “Dual-gated memtransistor crossbar array, fabricating methods and applications of same,” V. K. Sangwan, H.-S. Lee, and M. C. Hersam, U.S. Provisional Patent application filed 10/1/19. [45] “Two-dimensional semiconductor based printable optoelectronic inks, fabricating methods and applications of same” J.-W. T. Seo, J. Zhu, and M. C. Hersam, PCT International Patent application filed 9/27/19. [44] “Thermally activated memristors, fabricating methods and applications of same,” V. K. Sangwan and M. C. Hersam, PCT International Patent application filed 7/11/19.

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[43] “Phase-inversion polymer composite material, fabricating methods and applications of same,” A. C. M. de Moraes and M. C. Hersam, U.S. Provisional Patent application filed 7/26/19. [42] “Borophene-graphene heterostructures, fabricating methods and applications of same,” X. Liu and M. C. Hersam, U.S. Provisional Patent application filed 6/26/19. [41] “Gel electrolytes for electrochemical devices, fabricating methods and applications of same,” W. J. Hyun and M. C. Hersam, U.S. Provisional Patent application filed 5/29/19. [40] “Composition comprising optically and electronically active phosphorene,” J. Kang, J. D. Wood, and M. C. Hersam, U.S. Divisional Patent application filed 5/22/19. [39] “Flexible hexagonal boron nitride additive manufacturing applications,” L. M. Guiney, N. D. Mansukhani, A. E. Jakus, R. N. Shah, and M. C. Hersam, PCT International Patent application filed 4/30/19. [38] “Printable ion-conductive and viscosity-tunable inks based on two-dimensional insulators and forming methods and applications of same,” A. C. M. de Moraes, J.-W. T. Seo, and M. C. Hersam, U.S. Provisional Patent application filed 3/15/19. [37] “Methods for sorting nanotubes by electronic type,” A. A. Green and M. C. Hersam, U.S. Divisional Patent application filed 3/8/19. [36] “Self-aligned short-channel electronic devices and fabrication methods of same,” V. K. Sangwan, M. E. Beck, and M. C. Hersam, PCT International Patent application filed 1/16/19. [35] “Multi-terminal memtransistors, fabricating methods and applications of same,” V. K. Sangwan, H.-S. Lee, and M. C. Hersam, PCT International Patent application filed 12/17/18. [34] “Anhydrous liquid-phase exfoliation of pristine electrochemically-active GeS nanosheets,” D. Lam, K.-S. Chen, J. Kang, and M. C. Hersam, PCT International Patent application filed 10/17/18. [33] “Conductive graphene interfacial barriers for liquid metal electronics,” E. B. Secor, A. B. Cook, C. E. Tabor, and M. C. Hersam, PCT International Patent application filed 10/3/18. [32] “Methods for preparation of concentrated graphene compositions and related composite materials,” Y. T. Liang and M. C. Hersam, U.S. Continuation Patent application filed 7/23/18. [31] “Optoelectronically-active two-dimensional indium selenide and related layered materials via surfactant-free deoxygenated co-solvent processing,” J. Kang and M. C. Hersam, PCT International Patent application filed 6/28/18. [30] “Nanostructured lithium-ion battery electrode composite materials via conformal graphene dispersion,” K.-S. Chen, E. B. Secor, and M. C. Hersam, U.S. Patent application filed 2/27/18.

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[29] “Methods for preparation of concentrated graphene ink compositions and related composite materials,” E. B. Secor, B. Y. Ahn, J. A. Lewis, and M. C. Hersam, U.S. Divisional Patent application filed 2/26/18. [28] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, U.S. Divisional Patent application filed 2/23/18. [27] “System and method for anti-ambipolar heterojunctions from solution-processed semiconductors,” D. M. Jariwala, V. K. Sangwan, W. Xu, H. Kim, T. J. Marks, and M. C. Hersam, U.S. Divisional Patent application filed 2/16/18. [26] “Electronically abrupt borophene/organic lateral heterostructures and preparation thereof,” X. Liu and M. C. Hersam, PCT International Patent application filed 2/8/18. [25] “High-resolution patterning of graphene by screen and gravure printing for highly flexible printed electronics,” E. B. Secor, S. Lim, C. D. Frisbie, L. F. Francis, and M. C. Hersam, U.S. Divisional Patent application filed 12/8/17. [24] “Methods for preparation of concentrated graphene ink compositions and related composite materials,” E. B Secor, P. L. Prabhumirashi, K. P. Puntambekar, M. L. Geier, Y. T. Liang, and M. C. Hersam, U.S. Divisional Patent application filed 12/4/17. [23] “Layer-by-layer sorting of rhenium disulfide via high-density isopycnic density gradient ultracentrifugation,” J. Kang and M. C. Hersam, U.S. Patent application filed 11/1/17. [22] “Sorting process of nanoparticles and applications of same,” T. P. Tyler, A.-I. Henry, R. P. Van Duyne, and M. C. Hersam, U.S. Divisional Patent application filed 9/26/17. [21] “High-performance solid-state supercapacitors and microsupercapacitors derived from printable graphene inks,” L. Li, E. B. Secor, and M. C. Hersam, U.S. Patent application filed 7/11/17. [20] “System and method for complementary VT-drop ambipolar carbon nanotube logic,” J. S. Friedman, M. L. Geier, M. C. Hersam, and A. V. Sahakian, U.S. Patent application filed 5/10/17. [19] “Ultralow power carbon nanotube logic circuits and method of making same,” M. L. Geier, P. L. Prabhumirashi, W. Xu, H. Kim, and M. C. Hersam, U. S. Divisional Patent application filed 2/20/17. [18] “Borophenes, boron layer allotropes and methods of preparation,” A. J. Mannix, J. D. Wood, B. T. Kiraly, B. L. Fisher, M. C. Hersam, and N. P. Guisinger, U.S. Patent application filed 2/13/17.

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[17] “Identification and optimization of carbon radicals on hydrated graphene oxide for ubiquitous antibacterial coatings,” R. Li, N. D. Mansukhani, L. M. Guiney, M. C. Hersam, T. Xia, and A. E. Nel, U.S. Provisional Patent application filed 11/16/16. [16] “Graphene-coated metal oxide spinel cathodes,” L. Jaber-Ansari, K. P. Puntambekar, M. M. Thackeray, and M. C. Hersam, PCT International Patent application filed 10/14/16. [15] “Gate-tunable p-n heterojunction diode, and fabrication method and application of same,” D. M. Jariwala, V. K. Sangwan, and M. C. Hersam, U.S. Divisional Patent application filed 9/14/16. [14] “Graphene oxide cellular delivery of hydrophilic small molecules,” A. H. Hung, M. C. Hersam, and T. J. Meade, U.S. Patent application filed 8/30/16. [13] “Methods for preparation of concentrated graphene ink compositions and related composite materials,” E. B. Secor, B. Y. Ahn, J. A. Lewis, and M. C. Hersam, PCT International Patent application filed 8/24/16. [12] “Sorting two-dimensional nanomaterials by thickness,” A.A. Green and M. C. Hersam, U.S. Continuation-in-Part Patent application filed 8/15/16. [11] “Methods of making non-covalently bonded carbon-titania nanocomposite thin films and applications of the same,” Y. T. Liang, B. Vijayan, K. A. Gray, and M. C. Hersam, U.S. Divisional Patent application filed 6/14/16. [10] “Gate-tunable atomically-thin memristors and methods for preparing same and applications of same,” V. K. Sangwan, D. M. Jariwala, I. S. Kim, T. J. Marks, L. J. Lauhon, and M. C. Hersam, PCT International Patent application filed 2/17/16. [9] “Nanowire-array transverse thermoelectrics,” C. Zhou, Y. Tang, T. A. Shastry, M. C. Hersam, and M. Grayson, U.S. Patent application filed 9/10/15. [8] “Methods for preparation of concentrated graphene compositions and related composite materials,” E. B. Secor, B. Y. Ahn, J. A. Lewis, and M. C. Hersam, U.S. Continuation Patent application filed 8/24/15. [7] “High-resolution patterning of graphene by screen and gravure printing for highly flexible printed electronics,” E. B. Secor, W. J. Hyun, C. D. Frisbie, L. F. Francis, and M. C. Hersam, U.S. Patent application filed 4/29/15. [6] “Inkjet printing of high conductivity, flexible graphene patterns,” E. B. Secor, P. L. Prabhumirashi, K. P. Puntambekar, M. L. Geier, and M. C. Hersam, U.S. Provisional Patent application filed 8/1/13.

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[5] “High-concentration aqueous dispersions of graphene using nonionic, biocompatible copolymers,” J.-W. T. Seo, A. A. Green, A. L. Antaris, and M. C. Hersam, U.S. Patent application filed 3/14/13. [4] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, U.S. Patent application filed 12/3/10. [3] “Transparent electrical conductors prepared from sorted carbon nanotubes and methods of preparing same,” A. A. Green and M. C. Hersam, U.S. Patent application filed 8/25/08. [2] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, European patent application filed 8/29/07. [1] “Monodisperse single-walled carbon nanotube populations and related methods for providing same,” M. S. Arnold, S. I. Stupp, and M. C. Hersam, Hong Kong patent application filed 8/29/07. Commercialization Activities [1] Co-founded NanoIntegris, which is a start-up company focused on supplying high performance carbon nanotube materials, 2007. [2] NanoIntegris was acquired by Raymor Industries, 2012. [3] Founded Volexion, which is a start-up company focused on supplying high performance lithium-ion battery materials, 2018. Publications in Refereed Journals (*indicates invited article, +indicates cover article) [458] S. D. Story, S. Boggs, L. M. Guiney, M. Ramesh, M. C. Hersam, C. J. Brinker, and S. L. Walker, “Aggregation morphology of planar engineered nanomaterials,” J. Colloid Interface Sci., in press, 2019. [457] V. K. Sangwan, J. Kang, and M. C. Hersam, “Thickness-dependent charge transport in exfoliated indium selenide vertical field-effect transistors,” Appl. Phys. Lett., 115, 243104 (2019). [456] X. Liu and M. C. Hersam, “Borophene-graphene heterostructures,” Science Advances, 5, eaax6444 (2019). +,*[455] X. Liu and M. C. Hersam, “2D materials for quantum information science,” Nature Reviews Materials, 4, 669 (2019). [454] A. C. M. de Moraes, W. J. Hyun, J.-W. T. Seo, J. R. Downing, J.-M. Lim, and M. C. Hersam, “Ion-conductive, viscosity-tunable hexagonal boron nitride nanosheet inks,” Adv. Funct. Mater., 29, 1902245 (2019).

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[453] Z. Zhang, A. J. Mannix, X. Liu, Z. Hu, N. P. Guisinger, M. C. Hersam, and B. I. Yakobson, “Near-equilibrium growth from borophene edges on silver,” Science Advances, 5, eaax0246 (2019). [452] W. J. Hyun, A. C. M. de Moraes, J.-M. Lim, J. R. Downing, K.-Y. Park, M. T. Z. Tan, and M. C. Hersam, “High-modulus hexagonal boron nitride nanoplatelet gel electrolytes for solid-state rechargeable lithium-ion batteries,” ACS Nano, 13, 9664 (2019). [451] M. Shams, L. M. Guiney, L. Huang, M. Ramesh, X. Yang, M. C. Hersam, and I. Chowdhury, “Influence of functional groups on the degradation of graphene oxide nanomaterials,” Environ. Sci. Nano, 6, 2203 (2019). [450] D. Nguyen, G. Kang, M. C. Hersam, G. C. Schatz, and R. P. Van Duyne, “Molecular-scale mechanistic investigation of oxygen dissociation and adsorption on metal surface-supported cobalt phthalocyanine,” J. Phys. Chem. Lett., 10, 3966 (2019). [449] A. J. Mannix, T. Saari, B. Kiraly, B. L. Fisher, C.-H. Hsu, Z.-Q. Huang, F.-C. Chuang, J. Nieminen, H. Lin, A. Bansil, M. C. Hersam, and N. P. Guisinger, “Edge states in the honeycomb reconstruction of two-dimensional silicon nanosheets,” Appl. Phys. Lett., 115, 023102 (2019). [448] S. Zhao, F. Caruso, L. Dähne, G. Decher, B. G. De Geest, J. Fan, N. Feliu, Y. Gogotsi, P. T. Hammond, M. C. Hersam, A. Khademhosseini, N. Kotov, S. Leporatti, Y. Li, F. Lisdat, L. M. Liz-Marzán, S. Moya, P. Mulvaney, A. L. Rogach, S. Roy, D. G. Shchukin, A. G. Skirtach, M. M. Stevens, G. B. Sukhorukov, P. S. Weiss, Z. Yue, D. Zhu, and W. J. Parak, “The future of layer-by-layer assembly: A tribute to ACS Nano Associate Editor Helmuth Möhwald,” ACS Nano, 13, 6151 (2019). [447] J. Chang, H. Pu, S. A. Wells, K. Shi, X. Guo, G. Zhou, X. Sui, R. Ren, S. Mao, Y. Chen, M. C. Hersam, and J. Chen, “Semi-quantitative design of black phosphorous field-effect transistor sensors for heavy metal ion detection in aqueous media,” Mol. Syst. Des. Eng., 4, 491 (2019). [446] D. Jariwala and M. C. Hersam, “2D materials: Molecular design and engineering perspectives,” Mol. Syst. Des. Eng., 4, 469 (2019). [445] S. Padgaonkar, S. H. Amsterdam, H. Bergeron, K. Su, T. J. Marks, M. C. Hersam, and E. A. Weiss, “Molecular-orientation-dependent interfacial charge transfer in phthalocyanine/MoS2 mixed-dimensional heterojunctions,” J. Phys. Chem. C, 123, 13337 (2019). [444] S. H. Amsterdam, T. K. Stanev, Q. Zhou, A. J.-T. Lou, H. Bergeron, P. Darancet, M. C. Hersam, N. P. Stern, and T. J. Marks, “Electronic coupling in metallophthalocyanine-transition metal dichalcogenide mixed-dimensional heterojunctions,” ACS Nano, 13, 4183 (2019). [443] B. Kiraly, X. Liu, L. Wang, Z. Zhang, A. J. Mannix, B. L. Fisher, B. I. Yakobson, M. C. Hersam, and N. P. Guisinger, “Borophene synthesis on Au(111),” ACS Nano, 13, 3816 (2019).

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[442] V. K. Sangwan, M. Zhu, S. Clark, K. A. Luck, T. J. Marks, M. G. Kanatzidis, and M. C. Hersam, “Low frequency carrier kinetics in perovskite solar cells,” ACS Appl. Mater. Interfaces, 11, 14166 (2019). [441] N. P. Guisinger, A. J. Mannix, R. B. Rankin, B. Kiraly, J. A. Phillips, S. B. Darling, B. L. Fisher, M. C. Hersam, and E. V. Iski, “Amino acid immobilization of copper surface diffusion on Cu(111),” Adv. Mater. Interfaces, 6, 1900021 (2019). [440] X. Liu, L. Wang, S. Li, M. S. Rahn, B. I. Yakobson, and M. C. Hersam, “Geometric imaging of borophene polymorphs with functionalized probes,” Nature Communications, 10, 1642 (2019). [439] I. Alam, L. M. Guiney, M. C. Hersam, and I. Chowdhury, “Application of external voltage for fouling mitigation from graphene oxide, reduced graphene oxide and molybdenum disulfide functionalized surfaces,” Environ. Sci. Nano, 6, 925 (2019). [438] D. Song, F. Z. Bidoky, E. B. Secor, M. C. Hersam, and C. D. Frisbie, “Freestanding ion gels for flexible, printed, multifunctional microsupercapacitors,” ACS Appl. Mater. Interfaces, 11, 9947 (2019). [437] X. Liu, I. Balla, V. K. Sangwan, H. Usta, A. Facchetti, T. J. Marks, and M. C. Hersam, “Ultrahigh vacuum self-assembly of rotationally commensurate C8-BTBT/MoS2/graphene mixed-dimensional heterostructures,” Chem. Mater., 31, 1761 (2019). [436] J.-W. T. Seo, J. Zhu, V. K. Sangwan, E. B. Secor, S. G. Wallace, and M. C. Hersam, “Fully inkjet-printed, mechanically flexible MoS2 nanosheet photodetectors,” ACS Appl. Mater. Interfaces, 11, 5675 (2019). [435] Y. Chen, W. Huang, V. K. Sangwan, B. Wang, L. Zeng, G. Wang, Y. Huang, Z. Lu, M. J. Bedzyk, M. C. Hersam, T. J. Marks, and A. Facchetti, “Polymer doping enables two-dimensional electron gas for high-performance homojunction oxide thin-film transistors,” Adv. Mater., 31, 1805082 (2019). [434] C. Zhong, V. K. Sangwan, J. Kang, J. Luxa, Z. Sofer, M. C. Hersam, and E. A. Weiss, “Hot carrier and surface recombination dynamics in layered InSe crystals,” J. Phys. Chem. Lett., 10, 493 (2019). [433] S. Kim, Z. Yao, J.-M. Lim, M. C. Hersam, C. Wolverton, V. P. Dravid, and K. He, “Atomic-scale observation of electrochemically reversible phase transformations in SnSe2 single crystals,” Adv. Mater., 30, 1804925 (2018). [432] S. A. Wells, A. Henning, J. T. Gish, V. K. Sangwan, L. J. Lauhon, and M. C. Hersam, “Suppressing ambient degradation of exfoliated InSe nanosheet devices via seeded atomic layer deposition encapsulation,” Nano Lett., 18, 7876 (2018).

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[431] J. Kang, I. Balla, X. Liu, H. Bergeron, S. Kim, C. Wolverton, and M. C. Hersam, “Selective transfer of rotationally commensurate MoS2 from an epitaxially grown van der Waals heterostructure,” Chem. Mater., 30, 8495 (2018). [430] W. C. W. Chan, M. Chhowalla, O. Farokhzad, S. Glotzer, Y. Gogotsi, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, K. Kataoka, A. Khademhosseini, N. A. Kotov, S.-T. Lee, Y. H. Lee, Y. Li, J. E. Millstone, P. Mulvaney, A. E. Nel, P. J. Nordlander, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, A. K. Sood, M. M. Stevens, A. T. S. Wee, T. Weil, C. G. Willson, and P. S. Weiss, “The 15th anniversary of the U.S. national nanotechnology initiative,” ACS Nano, 12, 10567 (2018). [429] B. Kiraly, A. J. Mannix, R. M. Jacobberger, B. L. Fisher, M. S. Arnold, M. C. Hersam, and N. P. Guisinger, “Driving chemical interactions at graphene-germanium van der Waals interfaces via thermal annealing,” Appl. Phys. Lett., 113, 213103 (2018). [428] S. M. Islam, V. K. Sangwan, Y. Li, J. Kang, X. Zhang, Y. He, J. Zhao, A. Murthy, S. Ma, V. P. Dravid, M. C. Hersam, and M. G. Kanatzidis, “Abrupt thermal shock of (NH4)2Mo3S13 leads to ultrafast synthesis of porous ensembles of MoS2 nanocrystals for high gain photodetectors,” ACS Appl. Mater. Interfaces, 10, 38193 (2018). [427] J. Kang, V. K. Sangwan, H.-S. Lee, X. Liu, and M. C. Hersam, “Solution-processed layered gallium telluride thin-film photodetectors,” ACS Photonics, 5, 3996 (2018). [426] L. Chen, R. E. Warburton, K.-S. Chen, J. A. Libera, C. Johnson, Z. Yang, M. C. Hersam, J. P. Greeley, and J. W. Elam, “Mechanism for Al2O3 atomic layer deposition on LiMn2O4 studied from in situ measurements and ab initio calculations,” Chem, 4, 2418 (2018). [425] W. J. Hyun, E. B. Secor, and M. C. Hersam, “Printable graphene inks stabilized with cellulosic polymers,” MRS Bull., 43, 730 (2018). [424] C. Husko, J. Kang, G. Moille, J. D. Wood, Z. Han, D. Gosztola, X. Ma, S. Combrie, A. De Rossi, M. C. Hersam, X. Checoury, and J. R. Guest, “Silicon-phosphorene nanocavity-enhanced optical emission at telecommunication wavelengths,” Nano Lett., 18, 6515 (2018). [423] M. Engel, D. B. Farmer, J. T. Azpiroz, J.-W. T. Seo, J. Kang, P. Avouris, M. C. Hersam, R. Krupke, and M. Steiner, “Graphene-enabled and directed nanomaterial placement from solution for large-scale device integration,” Nature Communications, 9, 4095 (2018). *[422] X. Liu and M. C. Hersam, “Interface characterization and control of 2D materials and heterostructures,” Adv. Mater., 30, 1801586 (2018). [421] J. Kang, S. A. Wells, V. K. Sangwan, D. Lam, X. Liu, J. Luxa, Z. Sofer, and M. C. Hersam, “Solution-based processing of optoelectronically-active indium selenide,” Adv. Mater., 30, 1802990 (2018).

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[420] T. Oh, J. C. Ku, J.-H. Lee, M. C. Hersam, and C. A. Mirkin, “Density-gradient control over nanoparticle supercrystal formation,” Nano Lett., 18, 6022 (2018). [419] C.-W. Kung, A. E. Platero-Prats, R. J. Drout, J. Kang, T. C. Wang, C. O. Audu, M. C. Hersam, K. W. Chapman, O. K. Farha, and J. T. Hupp, “Inorganic ‘conductive glass’ approach to rendering mesoporous metal-organic frameworks electronically conductive and chemically responsive,” ACS Appl. Mater. Interfaces, 10, 30532 (2018). [418] C. Sun, M. Shen, A. D. Chavez, A. M. Evans, X. Liu, B. Harutyunyan, N. C. Flanders, M. C. Hersam, M. J. Bedzyk, M. Olvera de la Cruz, and W. R. Dichtel, “High aspect ratio nanotubes assembled from macrocyclic iminium salts,” Proc. Nat. Acad. Sci. USA, 115, 8883 (2018). [417] Q. Li, Y. Xu, Z. Yao, J. Kang, X. Liu, C. Wolverton, M. C. Hersam, J. Wu, and V. P. Dravid, “Revealing the effects of electrode crystallographic orientation on battery electrochemistry via the anisotropic lithiation and sodiation of ReS2,” ACS Nano, 12, 7875 (2018). [416] Y. Choi, J. Kang, E. B. Secor, J. Sun, H. Kim, J. A. Lim, M. S. Kang, M. C. Hersam, and J. H. Cho, “Capacitively coupled hybrid ion gel and carbon nanotube thin-film transistors for low voltage flexible logic circuits,” Adv. Funct. Mater., 28, 1802610 (2018). [415] X. Liu, Z. Zhang, L. Wang, B. I. Yakobson, and M. C. Hersam, “Intermixing and periodic self-assembly of borophene line defects,” Nature Materials, 17, 783 (2018). [414] L. Chen, K.-S. Chen, X. Chen, G. Ramirez, Z. Huang, N. R. Geise, H.-G. Steinrück, B. L. Fisher, R. Shahbazian-Yassar, M. F. Toney, M. C. Hersam, and J. W. Elam, “Novel ALD chemistry enabled low-temperature synthesis of lithium fluoride coatings for durable lithium anodes,” ACS Appl. Mater. Interfaces, 10, 26972 (2018). [413] W. J. Hyun, E. B. Secor, F. Z. Bidoky, S. B. Walker, J. A. Lewis, M. C. Hersam, L. F. Francis, and C. D. Frisbie, “Self-aligned capillarity-assisted printing of top-gate thin-film transistors on plastic,” Flexible and Printed Electronics, 3, 035004 (2018). [412] I. Alam, L. M. Guiney, M. C. Hersam, and I. Chowdhury, “Antifouling properties of two dimensional molybdenum disulfide and graphene oxide nanomaterials,” Environ. Sci. Nano, 5, 1628 (2018). [411] L. M. Guiney, X. Wang, T. Xia, A. E. Nel, and M. C. Hersam, “Assessing and mitigating the hazard potential of two-dimensional materials,” ACS Nano, 12, 6360 (2018). [410] D. Song, E. B. Secor, Y. Wang, M. C. Hersam, and C. D. Frisbie, “Transfer printing of sub-5 μm graphene electrodes for flexible microsupercapacitors,” ACS Appl. Mater. Interfaces, 10, 22303 (2018).

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[409] S. P. Senanayak, V. K. Sangwan, J. J. McMorrow, K. Everaerts, Z. Chen, A. Facchetti, M. C. Hersam, T. J. Marks, and K. S. Narayan, “Self-assembled photochromic molecular dipoles for high-performance polymer thin-film transistors,” ACS Appl. Mater. Interfaces, 10, 21492 (2018). *[408] E. B. Secor, M. H. Dos Santos, S. G. Wallace, N. P. Bradshaw, and M. C. Hersam, “Tailoring the porosity and microstructure of printed graphene electrodes via polymer phase inversion,” J. Phys. Chem. C, 122, 13745 (2018). [407] X. Wang, J.-H. Lee, R. Li, Y.-P. Liao, J. Kang, C. H. Chang, L. M. Guiney, V. Mirshafiee, L. Li, J. Lu, T. Xia, M. C. Hersam, and A. E. Nel, “Toxicological profiling of highly purified single-walled carbon nanotubes with different lengths in the rodent lung and Escherichia Coli,” Small, 14, 1703915 (2018). [406] L. M. Guiney, N. D. Mansukhani, A. E. Jakus, S. G. Wallace, R. N. Shah, and M. C. Hersam, “Three-dimensional printing of cytocompatible, thermally conductive hexagonal boron nitride composites,” Nano Lett., 18, 3488 (2018). [405] M. J. Moody, A. Henning, T. Jurca, J. Y. Shang, H. Bergeron, I. Balla, J. N. Olding, E. A. Weiss, M. C. Hersam, T. L. Lohr, T. J. Marks, and L. J. Lauhon, “Atomic layer deposition of molybdenum oxides with tunable stoichiometry enables controllable doping of MoS2,” Chem. Mater., 30, 3628 (2018). *[404] A. J. Mannix, Z. Zhang, N. P. Guisinger, B. I. Yakobson, and M. C. Hersam, “Borophene as a prototype for synthetic 2D materials development,” Nature Nanotechnology, 13, 444 (2018). [403] A. Henning, V. K. Sangwan, H. Bergeron, I. Balla, Z. Sun, M. C. Hersam, and L. J. Lauhon, “Charge separation at mixed-dimensional single and multilayer MoS2/silicon nanowire heterojunctions,” ACS Appl. Mater. Interfaces, 10, 16760 (2018). [402] Z. Liu, S. A. Wells, S. Butun, E. Palacios, M. C. Hersam, and K. Aydin, “Extrinsic polarization-controlled optical anisotropy in plasmon-black phosphorus coupled system,” Nanotechnology, 29, 285202 (2018). [401] A. R. Naik, J. J. Kim, Ö. Usluer, D. L. G. Arellano, E. B. Secor, A. Facchetti, M. C. Hersam, A. L. Briseno, and J. J. Watkins, “Direct printing of graphene electrodes for high-performance organic inverters,” ACS Appl. Mater. Interfaces, 10, 15988 (2018). [400] D. Nguyen, G. Kang, N. Chiang, X. Chen, T. Seideman, M. C. Hersam, G. C. Schatz, and R. P. Van Duyne, “Probing molecular-scale catalytic interactions between oxygen and cobalt phthalocyanine using tip-enhanced Raman spectroscopy,” J. Am. Chem. Soc., 140, 5948 (2018). [399] G. P. Campbell, A. J. Mannix, J. D. Emery, T.-L. Lee, N. P. Guisinger, M. C. Hersam, and M. J. Bedzyk, “Resolving the chemically discrete structure of synthetic borophene polymorphs,” Nano Lett., 18, 2816 (2018).

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[398] G. Hu, J. Kang, L. W. T. Ng, X. Zhu, R. C. T. Howe, C. Jones, M. C. Hersam, and T. Hasan, “Functional inks and printing of two-dimensional materials,” Chem. Soc. Rev., 47, 3265 (2018). [397] C. Zhong, V. K. Sangwan, C. Wang, H. Bergeron, M. C. Hersam, and E. A. Weiss, “Mechanisms of ultrafast charge separation in a PTB7/monolayer MoS2 van der Waals heterojunction,” J. Phys. Chem. Lett., 9, 2484 (2018). [396] W. J. Parak, W. C. W. Chan, M. Chhowalla, O. Farokhzad, S. Glotzer, Y. Gogotsi, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, K. Kataoka, A. Khademhosseini, N. A. Kotov, S.-T. Lee, Y. H. Lee, Y. Li, J. Millstone, P. A. Mulvaney, A. E. Nel, P. J. Nordlander, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, and P. S. Weiss, “Helmuth Möhwald (1946−2018),” ACS Nano, 12, 3053 (2018). *[395] V. K. Sangwan and M. C. Hersam, “Electronic transport in two-dimensional materials,” Annu. Rev. Phys. Chem., 69, 299 (2018). [394] G. P. Campbell, B. Kiraly, R. M. Jacobberger, A. J. Mannix, M. S. Arnold, M. C. Hersam, N. P. Guisinger, and M. J. Bedzyk, “Epitaxial graphene-encapsulated surface reconstruction of Ge(110),” Phys. Rev. Mater., 2, 044004 (2018). [393] D. Lam, K.-S. Chen, J. Kang, X. Liu, and M. C. Hersam, “Anhydrous liquid-phase exfoliation of pristine electrochemically active GeS nanosheets,” Chem. Mater., 30, 2245 (2018). [392] Y.-L. Wu, N. S. Bobbitt, J. L. Logsdon, N. E. Powers-Riggs, J. N. Nelson, X. Liu, T. C. Wang, R. Q. Snurr, J. T. Hupp, O. K. Farha, M. C. Hersam, and M. R. Wasielewski, “Tunable crystallinity and charge transfer in two-dimensional G-quadruplex organic frameworks,” Angew. Chem. Int. Ed., 59, 3985 (2018). [391] R. Li, L. M. Guiney, C. H. Chang, N. D. Mansukhani, Z. Ji, X. Wang, Y.-P. Liao, W. Jiang, B. Sun, M. C. Hersam, A. E. Nel, and T. Xia, “Surface oxidation of graphene oxide determines membrane damage, lipid peroxidation, and cytotoxicity in macrophages in a pulmonary toxicity model,” ACS Nano, 12, 1390 (2018). [390] L. Zeng, R. Turrisi, B. Fu, J. D. Emery, A. R. Walker, M. A. Ratner, M. C. Hersam, A. F. Facchetti, T. J. Marks, and M. J. Bedzyk, “Measuring dipole inversion in self-assembled nano-dielectric molecular layers,” ACS Appl. Mater. Interfaces, 10, 6484 (2018). [389] L. Peng, S. A. Wells, C. R. Ryder, M. C. Hersam, and M. Grayson, “All-electrical determination of crystal orientation in anisotropic two-dimensional materials,” Phys. Rev. Lett., 120, 086801 (2018). [388] V. K. Sangwan, H.-S. Lee, H. Bergeron, I. Balla, M. E. Beck, K.-S. Chen, and M. C. Hersam, “Multi-terminal memtransistors from polycrystalline monolayer MoS2,” Nature, 554, 500 (2018).

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[387] V. K. Sangwan, M. E. Beck, A. Henning, J. Luo, H. Bergeron, J. Kang, I. Balla, H. Inbar, L. J. Lauhon, and M. C. Hersam, “Self-aligned van der Waals heterojunction diodes and transistors,” Nano Lett., 18, 1421 (2018). [386] H. Liu, Q. Li, Z. Yao, L. Li, Y. Li, C. Wolverton, M. C. Hersam, J. Wu, and V. P. Dravid, “Origin of fracture-resistance to large volume change in Cu-substituted Co3O4 electrodes,” Adv. Mater., 30, 1704851 (2018). [385] T. LaMountain, H. Bergeron, I. Balla, T. K. Stanev, M. C. Hersam, and N. P. Stern, “Valley-selective optical Stark effect probed by Kerr rotation,” Phys. Rev. B, 97, 045307 (2018). [384] N. D. Mansukhani, L. M. Guiney, Z. Wei, E. W. Roth, K. W. Putz, E. Luijten, and M. C. Hersam, “Optothermally reversible carbon nanotube-DNA supramolecular hybrid hydrogels,” Macromol. Rapid Commun., 39, 1700587 (2018). [383] E. B. Secor, A. B. Cook, C. E. Tabor, and M. C. Hersam, “Wiring up liquid metal: Stable and robust electrical contacts enabled by printable graphene inks,” Adv. Electron. Mater., 4, 1700483 (2018).

[382] N. Chiang, N. Jiang, L. R. Madison, E. A. Pozzi, M. R. Wasielewski, M. A. Ratner, M. C. Hersam, T. Seideman, G. C. Schatz, and R. P. Van Duyne, “Probing intermolecular vibrational symmetry breaking in self-assembled monolayers with ultrahigh vacuum tip-enhanced Raman spectroscopy,” J. Am. Chem. Soc., 139, 18664 (2017). [381] K. A. Luck, V. K. Sangwan, P. E. Hartnett, H. N. Arnold, M. R. Wasielewski, T. J. Marks, and M. C. Hersam, “Correlated in situ low-frequency noise and impedance spectroscopy reveal recombination dynamics in organic solar cells using fullerene and non-fullerene acceptors,” Adv. Funct. Mater., 27, 1703805 (2017). [380] W. C. W. Chan, M. Chhowalla, O. Farokhzad, S. Glotzer, Y. Gogotsi, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, K. Kataoka, A. Khademhosseini, N. A. Kotov, S.-T. Lee, Y. Li, J. Millstone, H. Möhwald, P. A. Mulvaney, A. E. Nel, P. J. Nordlander, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, L. E. Fernandez, and P. S. Weiss, “A big year ahead for nano in 2018,” ACS Nano, 11, 11755 (2017). [379] K.-C. Wang, T. K. Stanev, D. Valencia, J. Charles, A. Henning, V. K. Sangwan, A. Lahiri, D. Mejia, P. Sarangapani, M. Povolotskyi, A. Afzalian, J. Maassen, G. Klimeck, M. C. Hersam, L. J. Lauhon, N. P. Stern, and T. Kubis, “Control of interlayer physics in 2H transition metal dichalcogenides,” J. Appl. Phys., 122, 224302 (2017). [378] M. Zhu, W. Liu, W. Ke, S. Clark, E. B. Secor, T.-B. Song, M. G. Kanatzidis, X. Li, and M. C. Hersam, “Millisecond-pulsed photonically-annealed tin oxide electron transport layers for efficient perovskite solar cells,” J. Mater. Chem. A, 5, 24110 (2017).

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[377] H. Jang, C. R. Ryder, J. D. Wood, M. C. Hersam, and D. G. Cahill, “3D anisotropic thermal conductivity of exfoliated rhenium disulfide,” Adv. Mater., 29, 1700650 (2017). [376] E. B. Secor, T. Z. Gao, M. H. Dos Santos, S. G. Wallace, K. W. Putz, and M. C. Hersam, “Combustion-assisted photonic annealing of printable graphene inks via exothermic binders,” ACS Appl. Mater. Interfaces, 9, 29418 (2017). [375] W. J. Hyun, E. B. Secor, C.-H. Kim, M. C. Hersam, L. F. Francis, and C. D. Frisbie, “Scalable, self-aligned printing of flexible graphene micro-supercapacitors,” Adv. Energy Mater., 7, 1700285 (2017). [374] W. C. W. Chan, M. Chhowalla, S. Glotzer, Y. Gogotsi, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, K. Kataoka, A. Khademhosseini, N. A. Kotov, S.-T. Lee, Y. Li, H. Möhwald, P. A. Mulvaney, A. E. Nel, P. J. Nordlander, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, L. E. Fernandez, and P. S. Weiss, “Our first and next decades at ACS Nano,” ACS Nano, 11, 7553 (2017). +,*[373] K.-S. Chen, I. Balla, N. S. Luu, and M. C. Hersam, “Emerging opportunities for two-dimensional materials in lithium-ion batteries,” ACS Energy Lett., 2, 2026 (2017). [372] W. A. Gaviria Rojas, J. J. McMorrow, M. L. Geier, Q. Tang, C. H. Kim, T. J. Marks, and M. C. Hersam, “Solution-processed carbon nanotube true random number generator,” Nano Lett., 17, 4976 (2017). [371] A. Behranginia, P. Yasaei, A. K. Majee, V. K. Sangwan, F. Long, C. J. Foss, T. Foroozan, S. Fuladi, M. R. Hantehzadeh, R. Shahbazian-Yassar, M. C. Hersam, Z. Aksamija, and A. Salehi-Khojin, “Direct growth of high mobility and low-noise lateral MoS2-graphene heterostructure electronics,” Small, 13, 1604301 (2017). [370] D. Song, A. Mahajan, E. B. Secor, M. C. Hersam, L. F. Francis, and C. D. Frisbie, “High-resolution transfer printing of graphene lines for fully printed, flexible electronics,” ACS Nano, 11, 7431 (2017). *[369] X. Liu, C. R. Ryder, S. A. Wells, and M. C. Hersam, “Resolving the in-plane anisotropic properties of black phosphorus,” Small Methods, 1, 1700143 (2017). *[368] T. A. Shastry and M. C. Hersam, “Carbon nanotubes in thin-film solar cells,” Adv. Energy Mater., 7, 1601205 (2017). [367] Y. Choi, J. Kang, D. Jariwala, S. A. Wells, M. S. Kang, T. J. Marks, M. C. Hersam, and J. H. Cho, “Low-voltage 2D material field-effect transistors enabled by ion gel capacitive coupling,” Chem. Mater., 29, 4008 (2017).

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[366] Y.-L. Wu, N. E. Horwitz, K.-S. Chen, D. A. Gomez-Gualdron, N. S. Luu, L. Ma, T. C. Wang, M. C. Hersam, J. T. Hupp, O. K. Farha, R. Q. Snurr, and M. R. Wasielewski, “G-quadruplex organic frameworks,” Nature Chemistry, 9, 466 (2017). +,*[365] E. A. Pozzi, G. Goubert, N. Chiang, N. Jiang, C. T. Chapman, M. O. McAnally, A.-I. Henry, T. Seideman, G. C. Schatz, M. C. Hersam, and R. P. Van Duyne, “Ultrahigh-vacuum tip-enhanced Raman spectroscopy,” Chem. Rev., 117, 4961 (2017). [364] K.-S. Chen, R. Xu, N. S. Luu, E. B. Secor, K. Hamamoto, Q. Li, S. Kim, V. K. Sangwan, I. Balla, L. M. Guiney, J.-W. T. Seo, X. Yu, W. Liu, J. Wu, C. Wolverton, V. P. Dravid, S. A. Barnett, J. Lu, K. Amine, and M. C. Hersam, “Comprehensive enhancement of nanostructured lithium-ion battery cathode materials via conformal graphene dispersion,” Nano Lett., 17, 2539 (2017). *[363] J. Kang, V. K. Sangwan, J. D. Wood, and M. C. Hersam, “Solution-based processing of monodisperse two-dimensional nanomaterials,” Acc. Chem. Res., 50, 943 (2017). [362] J. J. McMorrow, C. D. Cress, W. A. Gaviria Rojas, M. L. Geier, T. J. Marks, and M. C. Hersam, “Radiation-hard complementary integrated circuits based on semiconducting single-walled carbon nanotubes,” ACS Nano, 11, 2992 (2017). [361] B. Pelaz, C. Alexiou, R. A. Alvarez Puebla, F. Alves, A. M. Andrews, S. Ashraf, L. P. Balogh, L. Ballerini, A. Bestetti, C. Brendel, S. Bosi, M. Carril, W. C. W. Chan, C. Chen, X. Chen, X. Chen, Z. Cheng, D. Cui, J. Du, C. Dullin, A. Escudero, N. Feliu, M. Gao, M. George, A. Grünweller, Z. Gu, Y. Gogotsi, N. Halas, N. Hampp, R. K. Hartmann, M. C. Hersam, P. Hunziker, J. Jian, X. Jiang, P. Jungebluth, P. Kadhiresan, K. Kataoka, A. Khademhosseini, J. Kopecek, N. A. Kotov, H. F. Krug, D. S. Lee, C.-M. Lehr, K. W. Leong, X.-J. Liang, M. Lim, L. M. Liz Marzán, X. Ma, P. Macchiarini, H. Meng, H. Möhwald, P. Mulvaney, A. E. Nel, S. Nie, P. Nordlander, T. Okano, J. Oliveira, T. H. Park, R. M. Penner, M. Prato, V. Puntes, V. Rotello, A. Samarakoon, R. E. Schaak, Y. Shen, S. Sjoqvist, A. G. Skirtach, M. G. Soliman, M. M. Stevens, B. Zhong Tang, R. Tietze, S. VanEpps, B. N. Udugama, H.-W. Sung, T. Weil, P. S. Weiss, I. Willner, Y. Wu, L. Yang, Z. Yue, Q. Zhang, Q. Zhang, X.-E. Zhang, Y. Zhao, X. Zhou, and W. J. Parak, “Diverse applications of nanomedicine,” ACS Nano, 11, 2313 (2017). [360] Y. Li, J. M. Buriak, Y. Gogotsi, M. C. Hersam, C. R. Kagan, and P. S. Weiss, “Prof. Millie Dresselhaus (1930–2017), Carbon Nanomaterials Pioneer,” ACS Nano, 11, 2307 (2017). [359] E. B. Secor, T. Z. Gao, A. E. Islam, R. Rao, S. G. Wallace, J. Zhu, K. W. Putz, B. Maruyama, and M. C. Hersam, “Enhanced conductivity, adhesion, and environmental stability of printed graphene inks with nitrocellulose,” Chem. Mater., 29, 2332 (2017). [358] A. Autere, C. R. Ryder, A. Saynatjoki, L. Karvonen, B. Amirsolaimani, R. A. Norwood, N. Peyghambarian, K. Kieu, H. Lipsanen, M. C. Hersam, and Z. Sun, “Rapid and large-area characterization of exfoliated black phosphorus using third-harmonic generation microscopy,” J. Phys. Chem. Lett., 8, 1343 (2017).

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[357] A. Khademhosseini, W. C. W. Chan, M. Chhowalla, S. C. Glotzer, Y. Gogotsi, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, N. A. Kotov, S.-T. Lee, Y. Li, H. Möhwald, P. A. Mulvaney, A. E. Nel, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, J. Brinker, X. Chen, L. Chi, M. Crommie, C. Dekker, O. Farokhzad, C. Gerber, D. S. Ginger, L. L. Kiessling, C. Landes, G. Leggett, X.-J. Liang, L. Liz-Marzán, J. Millstone, T. Odom, A. Ozcan, M. Prato, C. N. R. Rao, M. J. Sailor, E. Weiss, and P. S. Weiss, “Nanoscience and nanotechnology cross borders,” ACS Nano, 11, 1123 (2017). [356] X. Liu, Z. Wei, I. Balla, A. J. Mannix, N. P. Guisinger, E. Luijten, and M. C. Hersam, “Self-assembly of electronically abrupt borophene/organic lateral heterostructures,” Science Advances, 3, e1602356 (2017). [355] J. J. McMorrow, C. D. Cress, H. N. Arnold, V. K. Sangwan, D. Jariwala, S. W. Schmucker, T. J. Marks, and M. C. Hersam, “Vacuum ultraviolet radiation effects on two-dimensional MoS2 field-effect transistors,” Appl. Phys. Lett., 110, 073102 (2017). [354] H. Bergeron, V. K. Sangwan, J. J. McMorrow, G. P. Campbell, I. Balla, X. Liu, M. J. Bedzyk, T. J. Marks, and M. C. Hersam, “Chemical vapor deposition of monolayer MoS2 directly on ultrathin Al2O3 for low-power electronics,” Appl. Phys. Lett., 110, 053101 (2017). [353] B. Kim, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Inkjet printed circuits based on ambipolar and p-type carbon nanotube thin-film transistors,” Scientific Reports, 6, 39627 (2017). +[352] A. J. Mannix, B. Kiraly, M. C. Hersam, and N. P. Guisinger, “Synthesis and chemistry of elemental 2D materials,” Nature Reviews Chemistry, 1, 0014 (2017). +[351] D. Jariwala, T. J. Marks, and M. C. Hersam, “Mixed-dimensional van der Waals heterostructures,” Nature Materials, 16, 170 (2017). *[350] J. Zhu and M. C. Hersam, “Assembly and electronic applications of colloidal nanomaterials,” Adv. Mater., 29, 1603895 (2017). [349] S. B. Homan, V. K. Sangwan, I. Balla, H. Bergeron, E. A. Weiss, and M. C. Hersam, “Ultrafast exciton dissociation and long-lived charge separation in a photovoltaic pentacene-MoS2 van der Waals heterojunction,” Nano Lett., 17, 164 (2017). [348] X. Liu, K.-S. Chen, S. A. Wells, I. Balla, J. Zhu, J. D. Wood, and M. C. Hersam, “Scanning probe nanopatterning and layer-by-layer thinning of black phosphorus,” Adv. Mater., 29, 1604121 (2017). [347] R. Li, N. D. Mansukhani, L. M. Guiney, Z. Ji, Y. Zhao, C. H. Chang, C. T. French, J. F. Miller, M. C. Hersam, A. E. Nel, and T. Xia, “Identification and optimization of carbon radicals on hydrated graphene oxide for ubiquitous antibacterial coatings,” ACS Nano, 10, 10966 (2016). [346] W. C. W. Chan, M. Chhowalla, S. Glotzer, Y. Gogotsi, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, A. Khademhosseini, N. A. Kotov, S.-T. Lee, Y. Li, H.

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Möhwald, P. A. Mulvaney, A. E. Nel, P. J. Nordlander, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, L. E. Fernandez, and P. S. Weiss, “Nanoscience and nanotechnology impacting diverse fields of science, engineering, and medicine,” ACS Nano, 10, 10615 (2016). [345] N. Chiang, X. Chen, G. Goubert, D. V. Chulhai, X. Chen, E. A. Pozzi, N. Jiang, M. C. Hersam, T. Seideman, L. Jensen, and R. P. Van Duyne, “Conformational contrast of surface-mediated molecular switches yields angstrom-scale spatial resolution in ultrahigh vacuum tip-enhanced Raman spectroscopy,” Nano Lett., 16, 7774 (2016). [344] K. Yoon, J.-H. Lee, J. Kang, J. Kang, M. J. Moody, M. C. Hersam, and L. J. Lauhon, “Metal-free carbon-based nanomaterial coatings protect silicon photoanodes in solar water-splitting,” Nano Lett., 16, 7370 (2016). [343] Z. Lin, A. McCreary, N. Briggs, S. Subramanian, K. Zhang, Y. Sun, X. Li, N. Borys, H. Yuan, S. K. Fullerton-Shirey, A. Chernikov, H. Zhao, S. McDonnell, A. M. Lindenberg, K. Xiao, B. J. LeRoy, M. Drndic, J. C. M. Hwang, J. Park, M. Chhowalla, R. E. Schaak, A. Javey, M. C. Hersam, J. Robinson, and M. Terrones, “2D materials advances: From large scale synthesis and controlled heterostructures to improved characterization techniques, defects and applications,” 2D Materials, 3, 042001 (2016). [342] T. A. Shastry, I. Balla, H. Bergeron, S. H. Amsterdam, T. J. Marks, and M. C. Hersam, “Mutual photoluminescence quenching and photovoltaic effect in large-area single-layer MoS2-polymer heterojunctions,” ACS Nano, 10, 10573 (2016). [341] J. Kang, V. K. Sangwan, J. D. Wood, X. Liu, I. Balla, D. Lam, and M. C. Hersam, “Layer-by-layer sorting of rhenium disulfide via high-density isopycnic density gradient ultracentrifugation,” Nano Lett., 16, 7216 (2016). [340] W.-K. Lee, J. Kang, K.-S. Chen, C. J. Engel, W.-B. Jung, D. Rhee, M. C. Hersam, and T. W. Odom, “Multiscale, hierarchical patterning of graphene by conformal wrinkling,” Nano Lett., 16, 7121 (2016). [339] D. L. Gonzalez Arellano, H. Lee, E. B. Secor, E. K. Burnett, M. C. Hersam, J. J. Watkins, and A. L. Briseno, “Graphene ink as a conductive templating interlayer for enhanced charge transport of C60-based devices,” ACS Appl. Mater. Interfaces, 8, 29594 (2016). [338] L. Li, E. B. Secor, K.-S. Chen, J. Zhu, X. Liu, T. Z. Gao, J.-W. T. Seo, Y. Zhao, and M. C. Hersam, “High-performance solid-state supercapacitors and microsupercapacitors derived from printable graphene inks,” Adv. Energy Mater., 6, 1600909 (2016). [337] C. R. Kagan, L. E. Fernandez, Y. Gogotsi, P. T. Hammond, M. C. Hersam, A. E. Nel, R. M. Penner, C. G. Willson, and P. S. Weiss, “Nano day: Celebrating the next decade of nanoscience and nanotechnology,” ACS Nano, 10, 9093 (2016).

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*[336] J. Kang, S. A. Wells, J. D. Wood, J.-H. Lee, X. Liu, C. R. Ryder, J. Zhu, J. R. Guest, C. A. Husko, and M. C. Hersam, “Stable aqueous dispersions of optically and electronically active phosphorene,” Proc. Nat. Acad. Sci. USA, 113, 11688 (2016).

[335] Z. Zhang, A. J. Mannix, Z. Hu, B. Kiraly, N. P. Guisinger, M. C. Hersam, and B. I. Yakobson, “Substrate-induced nanoscale undulations of borophene on silver,” Nano Lett., 16, 6622 (2016). [334] K. A. Luck, H. N. Arnold, T. A. Shastry, T. J. Marks, and M. C. Hersam, “Suppression of polyfluorene photo-oxidative degradation via encapsulation of single-walled carbon nanotubes,” J. Phys. Chem. Lett., 7, 4223 (2016). [333] K. S. B. Culver, Y. J. Shin, M. W. Rotz, T. J. Meade, M. C. Hersam, and T. W. Odom, “Shape-dependent relaxivity of nanoparticle-based T1 magnetic resonance imaging contrast agents,” J. Phys. Chem. C, 120, 22103 (2016). [332] A. T. S. Wee, M. C. Hersam, M. Chhowalla, and Y. Gogotsi, “An update from flatland,” ACS Nano, 10, 8121 (2016). *[331] X. Liu, I. Balla, H. Bergeron, and M. C. Hersam, “Point defects and grain boundaries in rotationally commensurate MoS2 on epitaxial graphene,” J. Phys. Chem. C, 120, 20798 (2016). [330] S. Jang, S. Kim, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Inkjet printed carbon nanotubes in short channel field effect transistors: Influence of nanotube distortion and gate insulator interface modification,” Flexible and Printed Electronics, 1, 035001 (2016). [329] G. Evmenenko, T. T. Fister, D. B. Buchholz, Q. Li, K.-S. Chen, J. Wu, V. P. Dravid, M. C. Hersam, P. Fenter, and M. J. Bedzyk, “Morphological evolution of multilayer Ni/NiO thin film electrodes during lithiation,” ACS Appl. Mater. Interfaces, 8, 19979 (2016). [328] T. A. Shastry, P. E. Hartnett, M. R. Wasielewski, T. J. Marks, and M. C. Hersam, “Ternary polymer-perylenediimide-carbon nanotube photovoltaics with high efficiency and stability under super-solar irradiation,” ACS Energy Lett., 1, 548 (2016). [327] E. B. Secor, J. Smith, T. J. Marks, and M. C. Hersam, “High-performance inkjet-printed indium-gallium-zinc-oxide transistors enabled by embedded, chemically stable graphene electrodes,” ACS Appl. Mater. Interfaces, 8, 17428 (2016). [326] M. L. Geier, K. Moudgil, S. Barlow, S. R. Marder, and M. C. Hersam, “Controlled n-type doping of carbon nanotube transistors by an organorhodium dimer,” Nano Lett., 16, 4329 (2016). [325] E. A. Pozzi, N. L. Gruenke, N. Chiang, D. V. Zhdanov, N. Jiang, T. Seideman, G. C. Schatz, M. C. Hersam, and R. P. Van Duyne, “Operational regimes in picosecond and femtosecond pulse-excited ultrahigh vacuum SERS,” J. Phys. Chem. Lett., 7, 2971 (2016).

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[324] B. Kim, K. Liang, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Enhancement of minority carrier injection in ambipolar carbon nanotube transistors using double-gate structures,” Appl. Phys. Lett., 109, 023515 (2016). +[323] N. Jiang, D. Kurouski, E. A. Pozzi, N. Chiang, M. C. Hersam, and R. P. Van Duyne, “Tip-enhanced Raman spectroscopy: From concepts to practical applications,” Chem. Phys. Lett., 659, 16 (2016). [322] J. A. Jackman, D.-J. Cho, J. Lee, J. M. Chen, F. Besenbacher, D. A. Bonnell, M. C. Hersam, P. S. Weiss, and N.-J. Cho, “Nanotechnology education for the global world: Training the leaders of tomorrow,” ACS Nano, 10, 5595 (2016). [321] X. Wang, N. D. Mansukhani, L. M. Guiney, J.-H. Lee, R. Li, B. Sun, Y.-P. Liao, C. H. Chang, Z. Ji, T. Xia, M. C. Hersam, and A. E. Nel, “Toxicological profiling of highly purified metallic and semiconducting single-walled carbon nanotubes in the rodent lung and E. coli,” ACS Nano, 10, 6008 (2016). [320] P.-C. Chen, X. Liu, J. L. Hedrick, Z. Xie, S. Wang, Q.-Y. Lin, M. C. Hersam, V. P. Dravid, and C. A. Mirkin, “Polyelemental nanoparticle libraries,” Science, 352, 1565 (2016). [319] P. E. Hartnett, E. A. Margulies, H. S. S. R. Matte, M. C. Hersam, T. J. Marks, and M. R. Wasielewski, “Effects of crystalline perylenediimide acceptor morphology on optoelectronic properties and device performance,” Chem. Mater., 28, 3928 (2016). [318] N. Jiang, N. Chiang, L. R. Madison, E. A. Pozzi, M. R. Wasielewski, T. Seideman, M. A. Ratner, M. C. Hersam, G. C. Schatz, and R. P. Van Duyne, “Nanoscale chemical imaging of a dynamic molecular phase boundary with ultrahigh vacuum tip-enhanced Raman spectroscopy,” Nano Lett., 16, 3898 (2016). [317] Y. Cao, Y. Che, J.-W. T. Seo, H. Gui, M. C. Hersam, and C. Zhou, “High-performance radio frequency transistors based on diameter-separated semiconducting carbon nanotubes,” Appl. Phys. Lett., 108, 233105 (2016). [316] C. R. Ryder, J. D. Wood, S. A. Wells, Y. Yang, D. Jariwala, T. J. Marks, G. C. Schatz, and M. C. Hersam, “Covalent functionalization and passivation of exfoliated black phosphorus via aryl diazonium chemistry,” Nature Chem., 8, 597 (2016). [315] P. E. Hartnett, H. S. S. R. Matte, N. D. Eastham, N. E. Jackson, Y. Wu, L. X. Chen, M. A. Ratner, R. P. H. Chang, M. C. Hersam, M. R. Wasielewski, and T. J. Marks, “Ring-fusion as a perylenediimide dimer design concept for high-performance non-fullerene organic photovoltaic acceptors,” Chem. Sci., 7, 3543 (2016). [314] B. Kiraly, A. J. Mannix, R. M. Jacobberger, B. L. Fisher, M. S. Arnold, M. C. Hersam, and N. P. Guisinger, “Sub-5 nm, globally aligned graphene nanoribbons on Ge(001),” Appl. Phys. Lett., 108, 213101 (2016).

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[313] Y. Choi, J. Kang, D. Jariwala, M. S. Kang, T. J. Marks, M. C. Hersam, and J. H. Cho, “Low-voltage complementary electronics from ion-gel-gated vertical van der Waals heterostructures,” Adv. Mater., 28, 3742 (2016). *[312] C. R. Ryder, J. D. Wood, S. A. Wells, and M. C. Hersam, “Chemically tailoring semiconducting two-dimensional transition metal dichalcogenides and black phosphorus,” ACS Nano, 10, 3900 (2016). [311] J. Kang, D. Jariwala, C. R. Ryder, S. A. Wells, Y. Choi, E. Hwang, J. H. Cho, T. J. Marks, and M. C. Hersam, “Probing out-of-plane charge transport in black phosphorus with graphene-contacted vertical field-effect transistors,” Nano Lett., 16, 2580 (2016). [310] H. N. Arnold, C. D. Cress, J. J. McMorrow, S. W. Schmucker, V. K. Sangwan, L. Jaber-Ansari, R. Kumar, K. P. Puntambekar, K. A. Luck, T. J. Marks, and M. C. Hersam, “Tunable radiation response in hybrid organic-inorganic gate dielectrics for low-voltage graphene electronics,” ACS Appl. Mater. Interfaces, 8, 5058 (2016). [309] H. N. Arnold, V. K. Sangwan, S. W. Schmucker, C. D. Cress, K. A. Luck, A. L. Friedman, J. T. Robinson, T. J. Marks, and M. C. Hersam, “Reducing flicker noise in chemical vapor deposition graphene field-effect transistors,” Appl. Phys. Lett., 108, 073108 (2016). [308] X. Liu, I. Balla, H. Bergeron, G. P. Campbell, M. J. Bedzyk, and M. C. Hersam, “Rotationally commensurate growth of MoS2 on epitaxial graphene,” ACS Nano, 10, 1067 (2016). +[307] T. A. Shastry, S. C. Clark, A. J. E. Rowberg, K. A. Luck, K.-S. Chen, T. J. Marks, and M. C. Hersam, “Enhanced uniformity and area scaling in carbon nanotube-fullerene bulk-heterojunction solar cells enabled by solvent additives,” Adv. Energy Mater., 6, 1501466 (2016). [306] N. D. Mansukhani, L. M. Guiney, P. J. Kim, Y. Zhao, D. Alducin, A. Ponce, E. Larios, M. J. Yacaman, and M. C. Hersam, “High-concentration aqueous dispersions of nanoscale 2D materials using nonionic, biocompatible block copolymers,” Small, 12, 294 (2016). [305] D. Jariwala, S. L. Howell, K.-S. Chen, J. Kang, V. K. Sangwan, S. A. Filippone, R. Turrisi, T. J. Marks, L. J. Lauhon, and M. C. Hersam, “Hybrid, gate-tunable, van der Waals p-n heterojunctions from pentacene and MoS2,” Nano Lett., 16, 497 (2016). +[304] J. Zhu, X. Liu, M. L. Geier, J. J. McMorrow, D. Jariwala, M. E. Beck, W. Huang, T. J. Marks, and M. C. Hersam, “Layer-by-layer assembled 2D montmorillonite dielectrics for solution-processed electronics,” Adv. Mater., 28, 63 (2016). [303] B. Kim, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Inkjet printed circuits on flexible and rigid substrates based on ambipolar carbon nanotubes with high operational stability,” ACS Appl. Mater. Interfaces, 7, 27654 (2015).

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[302] W. C. W. Chan, S. Glotzer, Y. Gogotsi, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, A. Khademhosseini, N. A. Kotov, S.-T. Lee, H. Möhwald, P. A. Mulvaney, A. E. Nel, P. J. Nordlander, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, H. L. Tierney, and P. S. Weiss, “Grand plans for nano,” ACS Nano, 9, 11503 (2015). [301] A. J. Mannix, X.-F. Zhou, B. Kiraly, J. D. Wood, D. Alducin, B. D. Myers, X. Liu, B. L. Fisher, U. Santiago, J. R. Guest, M. J. Yacaman, A. Ponce, A. R. Oganov, M. C. Hersam, and N. P. Guisinger, “Synthesis of borophenes: Anisotropic, two-dimensional boron polymorphs,” Science, 350, 1513 (2015). [300] S. P. Senanayak, V. K. Sangwan, J. J. McMorrow, K. Everaerts, Z. Chen, A. Facchetti, M. C. Hersam, T. J. Marks, and K. S. Narayan, “Self-assembled nanodielectrics for high-speed, low-voltage solution-processed polymer logic circuits,” Adv. Electron. Mater., 1, 1500226 (2015). [299] H. Jang, J. D. Wood, C. R. Ryder, M. C. Hersam, and D. G. Cahill, “Anisotropic thermal conductivity of exfoliated black phosphorus,” Adv. Mater., 27, 8017 (2015). [298] J. J. McMorrow, A. R. Walker, V. K. Sangwan, D. Jariwala, E. Hoffman, K. Everaerts, A. Facchetti, M. C. Hersam, and T. J. Marks, “Solution-processed self-assembled nanodielectrics on template-stripped metal substrates,” ACS Appl. Mater. Interfaces, 7, 26360 (2015). [297] W. J. Hyun, E. B. Secor, G. A. Rojas, M. C. Hersam, L. F. Francis, and C. D. Frisbie, “All-printed, foldable organic thin-film transistors on glassine paper,” Adv. Mater., 27, 7058 (2015). [296] B. Kiraly, R. M. Jacobberger, A. J. Mannix, G. P. Campbell, M. J. Bedzyk, M. S. Arnold, M. C. Hersam, and N. P. Guisinger, “Electronic and mechanical properties of graphene-germanium interfaces grown by chemical vapor deposition,” Nano Lett., 15, 7414 (2015). [295] E. B. Secor, B. Y. Ahn, T. Z. Gao, J. A. Lewis, and M. C. Hersam, “Rapid and versatile photonic annealing of graphene inks for flexible printed electronics,” Adv. Mater., 27, 6683 (2015). [294] M. L. Geier, J. J. McMorrow, W. Xu, J. Zhu, C. H. Kim, T. J. Marks, and M. C. Hersam, “Solution-processed carbon nanotube thin-film complementary static random access memory,” Nature Nanotech., 10, 944 (2015). [293] S. Cui, H. Pu, S. A. Wells, Z. Wen, S. Mao, J. Chang, M. C. Hersam, and J. Chen, “Ultrahigh sensitivity and unique layer-dependent sensing performance of phosphorene-based gas sensors,” Nat. Commun., 6, 8632 (2015). +[292] S. Jang, B. Kim, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Short channel field-effect-transistors with inkjet-printed semiconducting carbon nanotubes,” Small, 11, 5505 (2015).

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[291] J. Zhu, J. Kang, J. Kang, D. Jariwala, J. D. Wood, J.-W. T. Seo, K.-S. Chen, T. J. Marks, and M. C. Hersam, “Solution-processed dielectrics based on thickness-sorted two-dimensional hexagonal boron nitride nanosheets,” Nano Lett., 15, 7029 (2015). [290] E. A. Pozzi, A. B. Zrimsek, C. M. Lethiec, G. C. Schatz, M. C. Hersam, and R. P. Van Duyne, “Evaluating single-molecule Stokes and anti-Stokes SERS for nanoscale thermometry,” J. Phys. Chem. C, 119, 21116 (2015). [289] I. Chowdhury, N. D. Mansukhani, L. M. Guiney, M. C. Hersam, and D. C. Bouchard, “Aggregation and stability of reduced graphene oxide: Complex roles of divalent cations, pH, and natural organic matter,” Environ. Sci. Technol., 49, 10886 (2015). [288] X. Wang, N. D. Mansukhani, L. M. Guiney, Z. Ji, C. H. Chang, M. Wang, Y.-P. Liao, T.-B. Song, B. Sun, R. Li, T. Xia, M. C. Hersam, and A. E. Nel, “Differences in the toxicological potential of 2D versus aggregated molybdenum disulfide in the lung,” Small, 11, 5079 (2015). [287] P. P. Pal, N. Jiang, M. D. Sonntag, N. Chiang, E. T. Foley, M. C. Hersam, R. P. Van Duyne, and T. Seideman, “Plasmon-mediated electron transport in tip-enhanced Raman spectroscopic junctions,” J. Phys. Chem. Lett., 6, 4210 (2015). [286] M. C. Hersam, S.-T. Lee, A. E. Nel, A. Rogach, J. M. Buriak, and P. S. Weiss, “Big roles for nanocenters,” ACS Nano, 9, 8639 (2015). [285] B. Kiraly, A. J. Mannix, M. C. Hersam, and N. P. Guisinger, “Graphene-silicon heterostructures at the two-dimensional limit,” Chem. Mater., 27, 6085 (2015). [284] L. Jaber-Ansari, K. P. Puntambekar, S. Kim, M. Aykol, L. Luo, J. Wu, B. D. Myers, H. Iddir, J. T. Russell, S. J. Saldaña, R. Kumar, M. M. Thackeray, L. A. Curtiss, V. P. Dravid, C. Wolverton, and M. C. Hersam, “Suppressing manganese dissolution from lithium manganese oxide spinel cathodes with single-layer graphene,” Adv. Energy Mater., 5, 1500646 (2015). [283] R. M. Jacobberger, B. Kiraly, M. Fortin-Deschenes, P. L. Levesque, K. M. McElhinny, G. J. Brady, R. R. Delgado, S. S. Roy, A. Mannix, M. G. Lagally, P. G. Evans, P. Desjardins, R. Martel, M. C. Hersam, N. P. Guisinger, and M. S. Arnold, “Direct oriented growth of armchair graphene nanoribbons on germanium,” Nat. Commun., 6, 8006 (2015). *[282] M. C. Hersam, “Defects at the two-dimensional limit,” J. Phys. Chem. Lett., 6, 2738 (2015). [281] K. Rickert, E. A. Pozzi, R. Khanal, M. Onoue, G. Trimarchi, J. E. Medvedeva, M. C. Hersam, R. P. Van Duyne, and K. R. Poeppelmeier, “Selective crystal growth and structural, optical, and electronic studies of Mn3Ta2O8,” Inorg. Chem., 54, 6513 (2015). [280] A. E. Nel, W. J. Parak, W. C. W. Chan, T. Xia, M. C. Hersam, C. J. Brinker, J. I. Zink, K. E. Pinkerton, D. R. Baer, and P. S. Weiss, “Where are we heading in nanotechnology environmental health and safety and materials characterization?” ACS Nano, 9, 5627 (2015).

57

[279] B. Kim, J. Park, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Voltage-controlled ring oscillators based on inkjet printed carbon nanotubes and zinc tin oxide,” ACS Appl. Mater. Interfaces, 7, 12009 (2015). [278] N. Chiang, N. Jiang, D. V. Chulhai, E. A. Pozzi, M. C. Hersam, L. Jensen, T. Seideman, and R. P. Van Duyne, “Molecular-resolution interrogation of a porphyrin monolayer by ultrahigh vacuum tip-enhanced Raman and fluorescence spectroscopy,” Nano Lett., 15, 4114 (2015). *[277] M. C. Hersam, “The reemergence of chemistry for post-graphene two-dimensional nanomaterials,” ACS Nano, 9, 4661 (2015). [276] V. K. Sangwan, D. Jariwala, I. S. Kim, K.-S. Chen, T. J. Marks, L. J. Lauhon, and M. C. Hersam, “Gate-tunable memristive phenomena mediated by grain boundaries in single-layer MoS2,” Nature Nanotechnology, 10, 403 (2015). *[275] T. J. Marks and M. C. Hersam, “Semiconductors grown large and thin,” Nature, 520, 631 (2015). +[274] A. E. Jakus, E. B. Secor, A. L. Rutz, S. W. Jordan, M. C. Hersam, and R. N. Shah, “Three-dimensional printing of high-content graphene scaffolds for electronic and biomedical applications,” ACS Nano, 9, 4636 (2015). [273] J. Kang, J. D. Wood, S. A. Wells, J.-H. Lee, X. Liu, K.-S. Chen, and M. C. Hersam, “Solvent exfoliation of electronic-grade, two-dimensional black phosphorus,” ACS Nano, 9, 3596 (2015). [272] S. L. Howell, D. Jariwala, C.-C. Wu, K.-S. Chen, V. K. Sangwan, J. Kang, T. J. Marks, M. C. Hersam, and L. J. Lauhon, “Investigation of band-offsets at monolayer-multilayer MoS2 junctions by scanning photocurrent microscopy,” Nano Lett., 15, 2278 (2015). [271] M. Gong, T. A. Shastry, Q. Cui, R. R. Kohlmeyer, K. A. Luck, A. Rowberg, T. J. Marks, M. F. Durstock, H. Zhao, M. C. Hersam, and S. Ren, “Understanding charge transfer in carbon nanotube-fullerene bulk heterojunctions,” ACS Appl. Mater. Interfaces, 7, 7428 (2015). [270] X. Wang, M. C. Duch, N. Mansukhani, Z. Ji, Y.-P. Liao, M. Wang, H. Zhang, B. Sun, C. H. Chang, R. Li, S. Lin, H. Meng, T. Xia, M. C. Hersam, and A. E. Nel, “Use of a pro-fibrogenic mechanism-based predictive toxicological approach for tiered testing and decision analysis of carbonaceous nanomaterials,” ACS Nano, 9, 3032 (2015). [269] M. Engel, M. Steiner, J.-W. T. Seo, M. C. Hersam, and P. Avouris, “Hot spot dynamics in carbon nanotube array devices,” Nano Lett., 15, 2127 (2015). [268] J. D. Lanphere, C. J. Luth, L. M. Guiney, N. D. Mansukhani, M. C. Hersam, and S. L. Walker, “Fate and transport of molybdenum disulfide nanomaterials in sand columns,” Environ. Eng. Sci., 32, 163 (2015).

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[267] X. Liu, J. D. Wood, K.-S. Chen, E. Cho, and M. C. Hersam, “In situ thermal decomposition of exfoliated two-dimensional black phosphorus,” J. Phys. Chem. Lett., 6, 773 (2015). *[266] E. B. Secor and M. C. Hersam, “Emerging carbon and post-carbon nanomaterial inks for printed electronics,” J. Phys. Chem. Lett., 6, 620 (2015). +[265] W. Qin, M. Gong, X. Chen, T. A. Shastry, R. Sakidja, G. Yuan, M. C. Hersam, M. Wuttig, and S. Ren, “Multiferroicity of carbon-based charge transfer magnets,” Adv. Mater., 27, 734 (2015). [264] D. Jariwala, V. K. Sangwan, J.-W. T. Seo, W. Xu, J. Smith, C. H. Kim, L. J. Lauhon, T. J. Marks, and M. C. Hersam, “Large-area, low-voltage, antiambipolar heterojunctions from solution-processed semiconductors,” Nano Lett., 15, 416 (2015). [263] W. J. Hyun, E. B. Secor, M. C. Hersam, C. D. Frisbie, and L. F. Francis, “High-resolution patterning of graphene by screen printing with a silicon stencil for highly flexible printed electronics,” Adv. Mater., 27, 109 (2015). [262] C. K. Song, K. A. Luck, N. Zhou, L. Zeng, H. M. Heitzer, E. F. Manley, S. Goldman, L. X. Chen, M. A. Ratner, M. J. Bedzyk, R. P. H. Chang, M. C. Hersam, and T. J. Marks, “‘Supersaturated’ self-assembled charge-selective interfacial layers for organic solar cells,” J. Am. Chem. Soc., 136, 17762 (2014). [261] W. C. W. Chan, Y. Gogotsi, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, A. Khademhosseini, N. A. Kotov, S.-T. Lee, H. Möhwald, P. A. Mulvaney, A. E. Nel, P. J. Nordlander, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, and P. S. Weiss, “A year for nanoscience,” ACS Nano, 8, 11901 (2014). [260] J. D. Wood, S. A. Wells, D. Jariwala, K.-S. Chen, E. Cho, V. K. Sangwan, X. Liu, L. J. Lauhon, T. J. Marks, and M. C. Hersam, “Effective passivation of exfoliated black phosphorus transistors against ambient degradation,” Nano Lett., 14, 6964 (2014). [259] P. E. Hartnett, A. Timalsina, H. S. S. R. Matte, N. Zhou, X. Guo, W. Zhao, A. Facchetti, R. P. H. Chang, M. C. Hersam, M. R. Wasielewski, and T. J. Marks, “Slip-stacked perylenediimides as an alternative strategy for high efficiency nonfullerene acceptors in organic photovoltaics,” J. Am. Chem. Soc., 136, 16345 (2014) [258] B. Kim, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Complementary D flip-flops based on inkjet printed single-walled carbon nanotubes and zinc tin oxide,” IEEE Electron Device Lett., 35, 1245 (2014). [257] J. Kang, J.-W. T. Seo, D. Alducin, A. Ponce, M. J. Yacaman, and M. C. Hersam, “Thickness sorting of two-dimensional transition metal dichalcogenides via copolymer-assisted density gradient ultracentrifugation,” Nature Comm., 5, 5478 (2014).

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[256] I. S. Kim, V. K. Sangwan, D. Jariwala, J. D. Wood, S. Park, K.-S. Chen, F. Shi, F. Ruiz-Zepeda, A. Ponce, M. J. Yacaman, V. P. Dravid, T. J. Marks, M. C. Hersam, and L. J. Lauhon, “Influence of stoichiometry on the optical and electrical properties of chemical vapor deposition derived MoS2,” ACS Nano, 8, 10551 (2014). [255] A. H. Hung, R. J. Holbrook, M. W. Rotz, C. J. Glasscock, N. D. Mansukhani, K. W. MacRenaris, L. M. Manus, M. C. Duch, K. T. Dam, M. C. Hersam, and T. J. Meade, “Graphene oxide enhances cellular delivery of hydrophilic small molecules by co-incubation,” ACS Nano, 8, 10168 (2014). [254] L. Jaber-Ansari, K. P. Puntambekar, H. Tavassol, H. Yildirim, A. Kinaci, R. Kumar, S. Saldaña, A. A. Gewirth, J. P. Greeley, M. K. Y. Chan, and M. C. Hersam, “Defect evolution in graphene upon electrochemical lithiation,” ACS Appl. Mater. Interfaces, 6, 17626 (2014). [253] J. D. Emery, V. D. Wheeler, J. E. Johns, M. E. McBriarty, B. Detlefs, M. C. Hersam, D. K. Gaskill, and M. J. Bedzyk, “Structural consequences of hydrogen intercalation of epitaxial graphene on SiC(0001),” Appl. Phys. Lett., 105, 161602 (2014). [252] S. Jang, B. Kim, M. L. Geier, P. L. Prabhumirashi, M. C. Hersam, and A. Dodabalapur, “Fluoropolymer coatings for improved carbon nanotube transistor device and circuit performance,” Appl. Phys. Lett., 105, 122107 (2014). [251] M. Gong, T. A. Shastry, Y. Xie, M. Bernardi, D. Jasion, K. A. Luck, T. J. Marks, J. C. Grossman, S. Ren, and M. C. Hersam, “Polychiral semiconducting carbon nanotube-fullerene solar cells,” Nano Lett., 14, 5308 (2014). *[250] M. D. Sonntag, E. A. Pozzi, N. Jiang, M. C. Hersam, and R. P. Van Duyne, “Recent advances in tip-enhanced Raman spectroscopy,” J. Phys. Chem. Lett., 5, 3125 (2014). [249] M. C. Hersam and B. J. LeRoy, “Two-dimensional materials,” APL Materials, 2, 092201 (2014). [248] W. Qin, M. Gong, T. A. Shastry, M. C. Hersam, and S. Ren, “Charge-transfer induced magnetic field effects of nano-carbon heterojunctions,” Sci. Rep., 4, 6126 (2014). [247] I. Chowdhury, M. C. Duch, N. D. Mansukhani, M. C. Hersam, and D. Bouchard, “Interactions of graphene oxide nanomaterials with natural organic matter and metal oxide surfaces,” Environ. Sci. Technol., 48, 9382 (2014). +[246] S. Loser, B. Valle, K. A. Luck, C. K. Song, G. Ogien, M. C. Hersam, K. D. Singer, and T. J. Marks, “High-efficiency inverted polymer photovoltaics via spectrally tuned absorption enhancement,” Adv. Energy Mater., 4, 1301938 (2014).

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[245] Z. Kominkova, V. Vales, M. C. Hersam, and M. Kalbac, “Towards quantification of the ratio of the single and double wall carbon nanotubes in their mixtures: An in situ Raman spectroelectrochemical study,” Carbon, 78, 366 (2014). [244] E. A. Pozzi, M. D. Sonntag, N. Jiang, N. Chiang, T. Seideman, M. C. Hersam, and R. P. Van Duyne, “Ultrahigh vacuum tip-enhanced Raman spectroscopy with picosecond excitation,” J. Phys. Chem. Lett., 5, 2657 (2014). [243] A. J. Mannix, B. Kiraly, B. L. Fisher, M. C. Hersam, and N. P. Guisinger, “Silicon growth at the two-dimensional limit on Ag(111),” ACS Nano, 8, 7538 (2014). *[242] H. J. Karmel, J. J. Garramone, J. D. Emery, S. Kewalramani, M. J. Bedzyk, and M. C. Hersam, “Self-assembled organic monolayers on epitaxial graphene with enhanced structural and thermal stability,” Chem. Comm., 50, 8852 (2014). [241] E. B. Secor, S. Lim, H. Zhang, C. D. Frisbie, L. F. Francis, and M. C. Hersam, “Gravure printing of graphene for large-area flexible electronics,” Advanced Materials, 26, 4533 (2014). [240] B. Kim, S. Jang, M. L. Geier, P. L. Prabhumirashi, M. C. Hersam, and A. Dodabalapur, “High-speed, inkjet-printed carbon nanotube/zinc tin oxide hybrid complementary ring oscillators,” Nano Lett., 14, 3683 (2014). [239] A. J. Shearer, J. E. Johns, B. W. Caplins, D. E. Suich, M. C. Hersam, and C. B. Harris, “Electron dynamics of the buffer layer and bilayer graphene on SiC,” Appl. Phys. Lett., 104, 231604 (2014). +[238] Y.-G. Ha, K. Everaerts, M. C. Hersam, and T. J. Marks, “Hybrid gate dielectric materials for unconventional electronic circuitry,” Acc. Chem. Res., 47, 1019 (2014). [237] S. Kawashima, J.-W. T. Seo, D. Corr, M. C. Hersam, and S. P. Shah, “Dispersion of CaCO3 nanoparticles by sonication and surfactant treatment for application in fly ash-cement systems,” Materials and Structures, 47, 1011 (2014). [236] L. Jaber-Ansari, H. Iddir, L. A. Curtiss, and M. C. Hersam, “Influence of electronic type purity on the lithiation of single-walled carbon nanotubes,” ACS Nano, 8, 2399 (2014). [235] J. M. Klingsporn, N. Jiang, E. A. Pozzi, M. D. Sonntag, D. Chulhai, T. Seideman, L. Jensen, M. C. Hersam, and R. P. Van Duyne, “Intramolecular insight into adsorbate-substrate interactions via low-temperature, ultrahigh-vacuum tip-enhanced Raman spectroscopy,” J. Am. Chem. Soc., 136, 3881 (2014). [234] D. Jariwala, V. K. Sangwan, L. J. Lauhon, T. J. Marks, and M. C. Hersam, “Emerging device applications for semiconducting two-dimensional transition metal dichalcogenides,” ACS Nano, 8, 1102 (2014).

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[233] V. K. Sangwan, D. Jariwala, K. Everaerts, J. J. McMorrow, J. He, M. Grayson, L. J. Lauhon, T. J. Marks, and M. C. Hersam, “Wafer-scale solution-derived molecular gate dielectrics for low-voltage graphene electronics,” Appl. Phys. Lett., 104, 083503 (2014). [232] B. Kim, S. Jang, M. L. Geier, P. L. Prabhumirashi, M. C. Hersam, and A. Dodabalapur, “Inkjet printed ambipolar transistors and inverters based on carbon nanotube/zinc tin oxide heterostructures,” Appl. Phys. Lett., 104, 062101 (2014). [231] A. L. Lipson, K. Puntambekar, D. J. Comstock, X. Meng, M. L. Geier, J. W. Elam, and M. C. Hersam, “Nanoscale investigation of solid electrolyte interphase inhibition on Li-ion battery MnO electrodes via atomic layer deposition of Al2O3,” Chem. Mater., 26, 935 (2014). [230] I. Chowdhury, M. C. Duch, N. D. Mansukhani, M. C. Hersam, and D. Bouchard, “Deposition and release of graphene oxide nanomaterials using a quartz crystal microbalance,” Environ. Sci. Technol., 48, 961 (2014). [229] Md. Z. Hossain, M. B. A. Razak, S. Yoshimoto, K. Mukai, T. Koitaya, J. Yoshinobu, H. Sone, S. Hosaka, and M. C. Hersam, “Aqueous-phase oxidation of epitaxial graphene on the silicon face of SiC(0001),” J. Phys. Chem. C, 118, 1014 (2014). [228] X. Zhang, Z. Yu, C. Wang, D. Zarrouk, J.-W. T. Seo, J. C. Cheng, A. D. Buchan, K. Takei, Y. Zhao, J. W. Ager, J. Zhang, M. Hettick, M. C. Hersam, A. P. Pisano, R. S. Fearing, and A. Javey, “Photoactuators and motors based on carbon nanotubes with selective chirality distributions,” Nature Comm., 5, 2983 (2014). [227] H. J. Karmel, T. Chien, V. Demers-Carpentier, J. J. Garramone, and M. C. Hersam, “Self-assembled two-dimensional heteromolecular nanoporous molecular arrays on epitaxial graphene,” J. Phys. Chem. Lett., 5, 270 (2014). [226] E. C. Mattson, J. E. Johns, K. Pande, R. A. Bosch, S. Cui, M. Gajdardziska-Josifovska, M. Weinert, J. H. Chen, M. C. Hersam, and C. J. Hirschmugl, “Vibrational excitations and low-energy electronic structure of epoxide-decorated graphene,” J. Phys. Chem. Lett., 5, 212 (2014). [225] W. C. W. Chan, Y. Gogotsi, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, C. R. Kagan, A. Khademhosseini, N. A. Kotov, H. Möhwald, P. A. Mulvaney, A. E. Nel, P. J. Nordlander, W. J. Parak, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, and P. S. Weiss, “Exciting times for nano,” ACS Nano, 7, 10437 (2013). +[224] J. M. P. Alaboson, C.-H. Sham, S. Kewalramani, J. D. Emery, J. E. Johns, A. Deshpande, T. Chien, M. J. Bedzyk, J. W. Elam, M. J. Pellin, and M. C. Hersam, “Templating sub-10 nm atomic layer deposited oxide nanostructures on graphene via one-dimensional organic self-assembled monolayers,” Nano Lett., 13, 5763 (2013). [223] A. Tselev, V. K. Sangwan, D. Jariwala, T. J. Marks, L. J. Lauhon, M. C. Hersam, and S. V. Kalinin, “Near-field microwave microscopy of high-κ oxides grown on graphene with an organic seeding layer,” Appl. Phys. Lett., 103, 243105 (2013).

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[222] J. E. Johns, J. M. P. Alaboson, S. Patwardhan, C. R. Ryder, G. C. Schatz, and M. C. Hersam, “Metal oxide nanoparticle growth on graphene via chemical activation with atomic oxygen,” J. Am. Chem. Soc., 135, 18121 (2013). [221] A. Natan, M. C. Hersam, and T. Seideman, “Insights into graphene functionalization by single atom doping,” Nanotechnology, 24, 505715 (2013). [220] K. Everaerts, L. Zeng, J. W. Hennek, D. I. Camacho, D. Jariwala, M. J. Bedzyk, M. C. Hersam, and T. J. Marks, “Printed indium gallium zinc oxide transistors. Self-assembled nanodielectric effects on low-temperature combustion growth and carrier mobility,” ACS Appl. Mater. Interfaces, 5, 11884 (2013). [219] W. Xie, P. L. Prabhumirashi, Y. Nakayama, K. A. McGarry, M. L. Geier, Y. Uragami, K. Mase, C. J. Douglas, H. Ishii, M. C. Hersam, and C. Daniel Frisbie, “Utilizing carbon nanotube electrodes to improve charge injection and transport in bis(trifluoromethyl)-dimethyl-rubrene ambipolar single crystal transistors,” ACS Nano, 7, 10245 (2013). [218] J. D. Emery, B. Detlefs, H. J. Karmel, L. O. Nyakiti, D. K. Gaskill, M. C. Hersam, J. Zegenhagen, and M. J. Bedzyk, “Chemically resolved interface structure of epitaxial graphene on SiC(0001),” Phys. Rev. Lett., 111, 215501 (2013). [217] K. A. Luck, T. A. Shastry, S. Loser, G. Ogien, T. J. Marks, and M. C. Hersam, “Improved uniformity in high-performance organic photovoltaics enabled by (3-aminopropyl) triethoxysilane cathode interfacial treatments,” Phys. Chem. Chem. Phys., 15, 20966 (2013). [216] B. Kiraly, E. V. Iski, A. J. Mannix, B. L. Fisher, M. C. Hersam, and N. P. Guisinger, “Solid-source growth and atomic-scale characterization of graphene on Ag(111),” Nature Comm., 4, 2804 (2013). [215] D. Jariwala, V. K. Sangwan, C.-C. Wu, P. L. Prabhumirashi, M. L. Geier, T. J. Marks, L. J. Lauhon, and M. C. Hersam, “Gate-tunable carbon nanotube-MoS2 heterojunction p-n diode,” Proc. Nat. Acad. Sci. USA, 110, 18076 (2013). [214] W. J. Parak, W. C. W. Chan, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, A. Khademhosseini, N. A. Kotov, P. Mulvaney, A. E. Nel, P. J. Nordlander, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, and P. S. Weiss, “Be critical but fair,” ACS Nano, 7, 8313 (2013). [213] M. L. Geier, P. L. Prabhumirashi, J. J. McMorrow, W. Xu, J.-W. T. Seo, K. Everaerts, C. H. Kim, T. J. Marks, and M. C. Hersam, “Subnanowatt carbon nanotube complementary logic enabled by threshold voltage control,” Nano Lett., 13, 4810 (2013). [212] V. K. Sangwan, H. N. Arnold, D. Jariwala, T. J. Marks, L. J. Lauhon, and M. C. Hersam, “Low-frequency electronic noise in single-layer MoS2 transistors,” Nano Lett., 13, 4351 (2013).

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[211] B. Kim, S. Jang, P. L. Prabhumirashi, M. L. Geier, M. C. Hersam, and A. Dodabalapur, “Low voltage, high performance inkjet printed carbon nanotube transistors with solution processed ZrO2 gate insulator,” Appl. Phys. Lett., 103, 082119 (2013). [210] A. H. Hung, M. C. Duch, G. Parigi, M. W. Rotz, L. M. Manus, D. J. Mastarone, K. T. Dam, C. C. Gits, K. W. MacRenaris, C. Luchinat, M. C. Hersam, and T. J. Meade, “Mechanisms of gadographene-mediated proton spin relaxation,” J. Phys. Chem. C, 117, 16263 (2013). [209] J.-W. T. Seo, N. L. Yoder, T. A. Shastry, J. J. Humes, J. E. Johns, A. A. Green, and M. C. Hersam, “Diameter refinement of semiconducting arc discharge single-walled carbon nanotubes via density gradient ultracentrifugation,” J. Phys. Chem. Lett., 4, 2805 (2013). [208] Y. J. Shin, E. Ringe, M. L. Personick, M. F. Cardinal, C. A. Mirkin, L. D. Marks, R. P. Van Duyne, and M. C. Hersam, “Centrifugal shape sorting and optical response of polyhedral gold nanoparticles,” Adv. Mater., 25, 4023 (2013). [207] C.-C. Wu, D. Jariwala, V. K. Sangwan, T. J. Marks, M. C. Hersam, and L. J. Lauhon, “Elucidating the photoresponse of ultrathin MoS2 field-effect transistors by scanning photocurrent microscopy,” J. Phys. Chem. Lett., 4, 2508 (2013). [206] K. Everaerts, J. D. Emery, D. Jariwala, H. J. Karmel, V. K. Sangwan, P. L. Prabhumirashi, M. L. Geier, J. J. McMorrow, M. J. Bedzyk, A. Facchetti, M. C. Hersam, and T. J. Marks, “Ambient-processable high-capacitance hafnia-organic self-assembled nanodielectrics,” J. Am. Chem. Soc., 135, 8926 (2013). +[205] Y. Xie, M. Gong, T. A. Shastry, J. Lohrman, M. C. Hersam, and S. Ren, “Broad-spectral-response nanocarbon bulk-heterojunction excitonic photodetectors,” Adv. Mater., 25, 3433 (2013). [204] H. J. Karmel and M. C. Hersam, “Room temperature molecular resolution nanopatterning of cyclopentene monolayers on Si(100) via feedback controlled lithography,” Appl. Phys. Lett., 102, 243106 (2013). [203] I. Chowdhury, M. C. Duch, N. D. Mansukhani, M. C. Hersam, and D. Bouchard, “Colloidal properties and stability of graphene oxide nanomaterials in the aquatic environment,” Environ. Sci. Technol., 47, 6288 (2013). [202] M. C. Prado, D. Jariwala, T. J. Marks, and M. C. Hersam, “Optimization of graphene dry etching conditions via combined microscopic and spectroscopic analysis,” Appl. Phys. Lett., 102, 193111 (2013). [201] T. A. Shastry, A. J. Morris-Cohen, E. A. Weiss, and M. C. Hersam, “Probing carbon nanotube-surfactant interactions with two-dimensional DOSY NMR,” J. Am. Chem. Soc., 135, 6750 (2013).

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[200] D. Jariwala, V. K. Sangwan, D. J. Late, J. E. Johns, V. P. Dravid, T. J. Marks, L. J. Lauhon, and M. C. Hersam, “Band-like transport in high mobility unencapsulated single-layer MoS2 transistors,” Appl. Phys. Lett., 102, 173107 (2013). +,*[199] A. L. Lipson and M. C. Hersam, “Conductive scanning probe characterization and nanopatterning of electronic and energy materials,” J. Phys. Chem. C, 117, 7953 (2013). [198] E. B. Secor, P. L. Prabhumirashi, K. Puntambekar, M. L. Geier, and M. C. Hersam, “Inkjet printing of high conductivity, flexible graphene patterns,” J. Phys. Chem. Lett., 4, 1347 (2013). [197] V. K. Sangwan, D. Jariwala, S. A. Filippone, H. J. Karmel, J. E. Johns, J. M. P. Alaboson, T. J. Marks, L. J. Lauhon, and M. C. Hersam, “Quantitatively enhanced reliability and uniformity of high-κ dielectrics on graphene enabled by self-assembled seeding layers,” Nano Lett., 13, 1162 (2013). [196] M. Ha, J.-W. T. Seo, P. L. Prabhumirashi, W. Zhang, M. L. Geier, M. J. Renn, C. H. Kim, M. C. Hersam, and C. D. Frisbie, “Aerosol jet printed, low voltage, electrolyte-gated carbon nanotube ring oscillators with sub-5 µs stage delays,” Nano Lett., 13, 954 (2013). [195] M. E. Regler, H. J. Krenner, A. A. Green, M. C. Hersam, A. Wixforth, and A. Hartschuh, “Controlling excition decay dynamics in semiconducting single-walled carbon nanotubes by surface acoustic waves,” Chem. Phys., 413, 39 (2013). *[194] D. Jariwala, V. K. Sangwan, L. J. Lauhon, T. J. Marks, and M. C. Hersam, “Carbon nanomaterials for electronics, optoelectronics, photovoltaics, and sensing,” Chem. Soc. Rev., 42, 2824 (2013). [193] E. Sczygelski, V. K. Sangwan, C.-C. Wu, H. N. Arnold, K. Everaerts, T. J. Marks, M. C. Hersam, and L. J. Lauhon, “Extrinsic and intrinsic photoresponse in monodisperse carbon nanotube thin film transistors,” Appl. Phys. Lett., 102, 083104 (2013). *[192] E. A. Pozzi, M. D. Sonntag, N. Jiang, J. M. Klingsporn, M. C. Hersam, and R. P. Van Duyne, “Tip-enhanced Raman imaging: An emergent tool for probing biology at the nanoscale,” ACS Nano, 7, 885 (2013). [191] J. Huang, A. L. Ng, Y. Piao, C.-F. Chen, A. A. Green, C.-F. Sun, M. C. Hersam, C. S. Lee, and Y. Wang, “Covalently functionalized double-walled carbon nanotubes combine high sensitivity and selectivity in the electrical detection of small molecules,” J. Am. Chem. Soc., 135, 2306 (2013). [190] A. Behnam, V. K. Sangwan, X. Zhong, F. Lian, D. Estrada, D. Jariwala, A. J. Hoag, L. J. Lauhon, T. J. Marks, M. C. Hersam, and E. Pop, “High-field transport and thermal reliability of sorted carbon nanotube network devices,” ACS Nano, 7, 482 (2013). *[189] J. E. Johns and M. C. Hersam, “Atomic covalent functionalization of graphene,” Acc. Chem. Res., 46, 77 (2013).

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[188] T. A. Shastry, J.-W. T. Seo, J. J. Lopez, H. N. Arnold, J. Z. Kelter, V. K. Sangwan, L. J. Lauhon, T. J. Marks, and M. C. Hersam, “Large-area, electronically monodisperse, aligned single-walled carbon nanotube thin films fabricated by evaporation-driven self-assembly,” Small, 9, 45 (2013). [187] D. A. Bonnell, J. M. Buriak, W. C. W. Chan, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, N. A. Kotov, A. E. Nel, P. J. Nordlander, R. M. Penner, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, and P. S. Weiss, “We take it personally,” ACS Nano, 6, 10417 (2012). [186] D. J. Comstock, J. W. Elam, M. J. Pellin, and M. C. Hersam, “High aspect ratio nanoneedle probes with an integrated electrode at the tip apex,” Rev. Sci. Instrum., 83, 113704 (2012). *[185] L. Jaber-Ansari and M. C. Hersam, “Solution-processed graphene materials and composites,” MRS Bulletin, 37, 1167 (2012). [184] I. Chowdhury, M. C. Duch, C. C. Gits, M. C. Hersam, and S. L. Walker, “Impact of synthesis methods on the transport of single walled carbon nanotubes in the aquatic environment,” Environ. Sci. Technol., 46, 11752 (2012). [183] A. Deshpande, C.-H. Sham, J. M. P. Alaboson, J. M. Mullin, G. C. Schatz, and M. C. Hersam, “Self-assembly and photopolymerization of sub-2 nm one-dimensional organic nanostructures on graphene,” J. Am. Chem. Soc., 134, 16759 (2012). +[182] N. Jiang, E. T. Foley, J. M. Klingsporn, M. D. Sonntag, N. A. Valley, J. A. Dieringer, T. Seideman, G. C. Schatz, M. C. Hersam, and R. P. Van Duyne, “Observation of multiple vibrational modes in ultrahigh vacuum tip-enhanced Raman spectroscopy combined with molecular-resolution scanning tunneling microscopy,” Nano Letters, 12, 5061 (2012). [181] A. L. Lipson, S. Chattopadhyay, H. J. Karmel, T. T. Fister, J. D. Emery, V. P. Dravid, M. M. Thackeray, P. A. Fenter, M. J. Bedzyk, and M. C. Hersam, “Enhanced lithiation of doped 6H silicon carbide (0001) via high temperature vacuum growth of epitaxial graphene,” J. Phys. Chem. C, 116, 20949 (2012). [180] A. L. Antaris, J.-W. T. Seo, R. E. Brock, J. E. Herriman, M. J. Born, A. A. Green, and M. C. Hersam, “Probing and tailoring pH-dependent interactions between block copolymers and single-walled carbon nanotubes for density gradient sorting,” J. Phys. Chem. C, 116, 20103 (2012). [179] T. P. Tyler, T. A. Shastry, B. J. Leever, and M. C. Hersam, “Narrow diameter distributions of metallic arc discharge single-walled carbon nanotubes via dual-iteration density gradient ultracentrifugation,” Advanced Materials, 24, 4765 (2012).

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[178] V. K. Sangwan, R. P. Ortiz, J. M. P. Alaboson, J. D. Emery, M. J. Bedzyk, L. J. Lauhon, T. J. Marks, and M. C. Hersam, “Fundamental performance limits of carbon nanotube thin-film transistors achieved using hybrid molecular dielectrics,” ACS Nano, 6, 7480 (2012). [177] M. Engel, M. Steiner, R. S. Sundaram, R. Krupke, A. A. Green, M. C. Hersam, and Ph. Avouris, “Spatially resolved electrostatic potential and photocurrent generation in carbon nanotube array devices,” ACS Nano, 6, 7303 (2012). [176] S. Chattopadhyay, A. L. Lipson, H. J. Karmel, J. D. Emery, T. T. Fister, P. A. Fenter, M. C. Hersam, and M. J. Bedzyk, “In situ X-ray study of the solid electrolyte interphase (SEI) formation on graphene as a model Li-ion battery anode,” Chemistry of Materials, 24, 3038 (2012). [175] M. Steiner, M. Engel, Y.-M. Lin, Y. Wu, K. Jenkins, D. B. Farmer, J. J. Humes, N. L. Yoder, J.-W. T. Seo, A. A. Green, M. C. Hersam, R. Krupke, and Ph. Avouris, “High-frequency performance of scaled carbon nanotube array field-effect transistors,” Appl. Phys. Lett., 101, 053123 (2012). [174] S. A. Odom, T. P. Tyler, M. M. Caruso, J. A. Ritchey, M. V. Schulmerich, S. J. Robinson, R. Bhargava, N. R. Sottos, S. R. White, M. C. Hersam, and J. S. Moore, “Autonomic restoration of electrical conductivity using polymer-stabilized carbon nanotube and graphene microcapsules,” Appl. Phys. Lett., 101, 043106 (2012). [173] J. E. Johns, H. J. Karmel, J. M. P. Alaboson, and M. C. Hersam, “Probing the structure and chemistry of perylenetetracarboxylic dianhydride on graphene before and after atomic layer deposition of alumina,” J. Phys. Chem. Lett., 3, 1974 (2012). [172] Y. T. Liang, B. K. Vijayan, O. Lyandres, K. A. Gray, and M. C. Hersam, “The effect of dimensionality on the photocatalytic behavior of carbon-titania nanosheet composites: Charge transfer at nanomaterial interfaces,” J. Phys. Chem. Lett., 3, 1760 (2012). [171] G. N. Ostojic and M. C. Hersam, “Biomolecule-directed assembly of self-supported, nanoporous, conductive, and luminescent single-walled carbon nanotube scaffolds,” Small, 8, 1840 (2012). [170] X. Wang, T. Xia, M. C. Duch, Z. Ji, H. Zhang, R. Li, B. Sun, S. Lin, H. Meng, Y.-P. Liao, M. Wang, T.-B. Song, Y. Yang, M. C. Hersam, and A. E. Nel, “Pluronic F108 coating decreases the lung fibrosis potential of multiwall carbon nanotubes by reducing lysosomal injury,” Nano Letters, 12, 3050 (2012). +,*[169] Y. T. Liang and M. C. Hersam, “Towards rationally designed graphene-based materials and devices,” Macromolecular Chemistry and Physics, 213, 1091 (2012). [168] T. P. Tyler, P. A. Lin, Y. Tian, H.-J. Gao, X. P. A. Gao, R. M. Sankaran, and M. C. Hersam, “Centrifugal shape sorting of faceted gold nanoparticles using an atomic plane-selective surfactant,” J. Phys. Chem. Lett., 3, 1484 (2012).

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[167] M. G. Reuter, M. C. Hersam, T. Seideman, and M. A. Ratner, “Signatures of cooperative effects and transport mechanisms in conductance histograms,” Nano Letters, 12, 2243 (2012). [166] J. W. Hennek, Y. Xia, K. Everaerts, M. C. Hersam, A. Facchetti, and T. J. Marks, “Reduced contact resistance in inkjet printed high-performance amorphous indium gallium zinc oxide transistors,” ACS Appl. Mater. Interfaces, 4, 1614 (2012). [165] Z. S. Metaxa, J.-W. T. Seo, M. S. Konsta-Gdoutos, M. C. Hersam, and S. P. Shah, “Highly concentrated carbon nanotube admixture for nano-fiber reinforced cementitous materials,” Cement and Concrete Composites, 34, 612 (2012). [164] Md. Z. Hossain, J. E. Johns, K. H. Bevan, H. J. Karmel, Y. T. Liang, S. Yoshimoto, K. Mukai, T. Koitaya, J. Yoshinobu, M. Kawai, A. M. Lear, L. L. Kesmodel, S. L. Tait, and M. C. Hersam, “Chemically homogeneous and thermally reversible oxidation of epitaxial graphene,” Nature Chemistry, 4, 305 (2012). [163] C. Sire, F. Ardiaca, S. Lepilliet, J.-W. T. Seo, M. C. Hersam, G. Dambrine, H. Happy, and V. Derycke, “Flexible gigahertz transistors derived from solution-based single-layer graphene,” Nano Letters, 12, 1184 (2012). [162] M. W. Graham, T. R. Calhoun, G. R. Fleming, A. A. Green, M. C. Hersam, and G. R. Fleming, “Two-dimensional electronic spectroscopy reveals the dynamics of phonon-mediated excitation pathways in semiconducting single-walled carbon nanotubes,” Nano Letters, 12, 813 (2012). [161] D. A. Bonnell, J. M. Buriak, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, N. A. Kotov, P. Nordlander, W. J. Parak, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, and P. S. Weiss, “Recycling is not always good: The dangers of self-plagiarism,” ACS Nano, 6, 1 (2012). [160] B. J. Leever, C. A. Bailey, T. J. Marks, M. C. Hersam, and M. F. Durstock, “In situ characterization of lifetime and morphology in operating bulk heterojunction organic photovoltaic devices by impedance spectroscopy,” Advanced Energy Materials, 2, 120 (2012). [159] D. M. Harrah, J. R. Schneck, A. A. Green, M. C. Hersam, L. D. Ziegler, and A. K. Swan, “Intensity-dependent exciton dynamics of (6,5) single-walled carbon nanotubes: Momentum selection rules, diffusion, and nonlinear interactions,” ACS Nano, 5, 9898 (2011). [158] H. L. Tierney, D. A. Bonnell, J. M. Buriak, J. H. Hafner, P. T. Hammond, M. C. Hersam, A. Javey, N. A. Kotov, P. Nordlander, W. J. Parak, A. L. Rogach, R. E. Schaak, M. M. Stevens, A. T. S. Wee, C. G. Willson, and P. S. Weiss, “ACS Nano in 2011 and looking forward to 2012,” ACS Nano, 5, 9301 (2011). [157] M. C. Duch, G. R. Scott Budinger,Y. T. Liang, S. Soberanes, D. Urich, S. E. Chiarella, L. A. Campochiaro, A. Gonzalez, N. S. Chandel, M. C. Hersam, and G. M. Mutlu, “Minimizing

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oxidation and stable nanoscale dispersion improves the biocompatibility of graphene in the lung,” Nano Letters, 11, 5201 (2011). +[156] A. L. Lipson, R. S. Ginder, and M. C. Hersam, “Nanoscale in situ characterization of Li-ion battery electrochemistry via scanning ion conductance microscopy,” Advanced Materials, 23, 5613 (2011). [155] Z. Feng, S. T. Christensen, J. W. Elam, B. Lee, M. C. Hersam, and M. J. Bedzyk, “Thermally induced nanoscale structural and morphological changes for atomic-layer-deposited Pt on SrTiO3(001),” J. Appl. Phys., 110, 102202 (2011). [154] B. J. Leever, I. P. Murray, M. F. Durstock, T. J. Marks, and M. C. Hersam, “Influence of indium tin oxide surface treatment on spatially-localized photocurrent variations in bulk heterojunction organic photovoltaic devices,” J. Phys. Chem. C, 115, 22688 (2011). [153] I. P. Murray, S. J. Lou, L. J. Cote, S. Loser, C. J. Kadleck, T. Xu, J. M. Szarko, B. S. Rolczynski, J. E. Johns, J. Huang, L. Yu, L. X. Chen, T. J. Marks, and M. C. Hersam, “Graphene oxide interlayers for robust, high-efficiency organic photovoltaics,” J. Phys. Chem. Lett., 2, 3006 (2011). +[152] T. P. Tyler, R. E. Brock, H. J. Karmel, T. J. Marks, and M. C. Hersam, “Electronically monodisperse single-walled carbon nanotube thin films as transparent conducting anodes in organic photovoltaic devices,” Advanced Energy Materials, 1, 785 (2011). [151] M. Kalbac, A. A. Green, M. C. Hersam, and L. Kavan, “Probing charge transfer between shells of double-walled carbon nanotubes sorted by outer-wall electronic type,” Chem. Eur. J., 17, 9806 (2011). *[150] J. D. Emery, Q. H.Wang, M. Zarrouati, P. Fenter, M. C. Hersam, and M. J. Bedzyk, “Structural analysis of PTCDA monolayers on epitaxial graphene with ultra-high vacuum scanning tunneling microscopy and high-resolution X-ray reflectivity,” Surf. Sci., 605, 1685 (2011). [149] Y. T. Liang, B. Vijayan, K. A. Gray, and M. C. Hersam, “Minimizing graphene defects enhances titania nanocomposite-based photocatalytic reduction of CO2 for improved solar fuel production,” Nano Lett., 11, 2865 (2011). *[148] Q. H. Wang and M. C. Hersam, “Characterization and nanopatterning of organically functionalized graphene with ultrahigh vacuum scanning tunneling microscopy,” MRS Bulletin, 36, 532 (2011). [147] N. E. Sosa, C. Chen, J. Liu, T. J. Marks, and M. C. Hersam, “Large-scale, nonsubtractive patterning of transparent conducting oxides by ion bombardment,” Appl. Phys. Lett., 99, 022110 (2011).

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[146] J. M. P. Alaboson, Q. H. Wang, J. D. Emery, A. L. Lipson, M. J. Bedzyk, J. W. Elam, M. J. Pellin, and M. C. Hersam, “Seeding atomic layer deposition of high-k dielectrics on epitaxial graphene with organic self-assembled monolayers,” ACS Nano, 5, 5223 (2011). [145] Y. Piao, C.-F. Chen, A. A. Green, H. Kwon, M. C. Hersam, C. S. Lee, G. C. Schatz, Y. Wang, “Optical and electrical properties of inner tubes in outer wall-selectively functionalized double-wall carbon nanotubes,” J. Phys. Chem. Lett., 2, 1577 (2011). [144] A. R. Hall, J. M. Keegstra, M. C. Duch, M. C. Hersam, and C. Dekker, “Translocation of single-wall carbon nanotubes through solid-state nanopores,” Nano Lett., 11, 2446 (2011). [143] M. W. Graham, J. Chmeliov, Y.-Z. Ma, H. Shinohara, A. A. Green, M. C. Hersam, G. R. Fleming, and L. Valkunas, “Exciton dynamics in semiconducting carbon nanotubes,” J. Phys. Chem. B, 115, 5201 (2011). +[142] A. A. Green and M. C. Hersam, “Nearly single-chirality single-walled carbon nanotubes produced via orthogonal iterative density gradient ultracentrifugation,” Adv. Mat., 23, 2185 (2011). [141] J. M. P. Alaboson, Q. H. Wang, J. A. Kellar, J. Park, J. W. Elam, M. J. Pellin, and M. C. Hersam, “Conductive atomic force microscope nanopatterning of epitaxial graphene on SiC (0001) in ambient conditions,” Adv. Mat., 23, 2181 (2011). *[140] Q. H. Wang, Md. Z. Hossain, M. A. Walsh, and M. C. Hersam, “Molecular-scale tailoring of graphene surface chemistry via organic functionalization,” ECS Trans., 35, 201 (2011). [139] J. R. Schneck, A. G. Walsh, A. A. Green, M. C. Hersam, L. D. Ziegler, and A. K. Swan, “Electron correlation effects on the femtosecond dephasing dynamics of E22 excitons in (6,5) carbon nanotubes,” J. Phys. Chem. A, 115, 3917 (2011). [138] M. D. Irwin, J. D. Servaites, D. B. Buchholz, B. J. Leever, J. Liu, J. D. Emery, M. Zhang, J.-H. Song, M. F. Durstock, A. J. Freeman, M. J. Bedzyk, M. C. Hersam, R. P. H. Chang, M. A. Ratner, and T. J. Marks, “Structural and electronic functionality of NiO interfacial films in bulk heterojunction organic solar cells,” Chem. Mat., 23, 2218 (2011). [137] M. Ganzhorn, A. Vijayaraghavan, A. A. Green, S. Dehm, A. Voigt, M. C. Hersam, and R. Krupke, “A scalable, CMOS-compatible assembly of ambipolar semiconducting single-walled carbon nanotube devices,“ Adv. Mat., 23, 1734 (2011). [136] J.-W. T. Seo, A. A. Green, A. L. Antaris, and M. C. Hersam, “High-concentration aqueous dispersions of graphene using nonionic, biocompatible block copolymers,” J. Phys. Chem. Lett., 2, 1004 (2011). [135] M. C. Roco, C. A. Mirkin, and M. C. Hersam, “Nanotechnology research directions for societal needs in 2020: Summary of international study,” J. Nanopart. Res., 13, 897 (2011).

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[134] M. Ganzhorn, A. Vijayaraghavan, S. Dehm, F. Hennrich, A. A. Green, M. Fichtner, A. Voigt, M. Rapp, H. v. Löhneysen, M. C. Hersam, M. M. Kappes, and R. Krupke, “Hydrogen sensing with diameter and chirality sorted carbon nanotubes,” ACS Nano, 5, 1670 (2011). [133] S. You, M. Mases, I. Dobryden, A. A. Green, M. C. Hersam, and A. V. Soldatov, “Probing structural stability of double-walled carbon nanotubes at high non-hydrostatic pressure by Raman spectroscopy,” High Pressure Research, 31, 186 (2011). [132] R. W. Newson, A. A. Green, M. C. Hersam, and H. M. van Driel, “Coherent injection and control of ballistic charge currents in single-walled carbon nanotubes and graphite,” Phys. Rev. B, 83, 115421 (2011). [131] A. A. Green and M. C. Hersam, “Properties and application of double-walled carbon nanotubes sorted by outer-wall electronic type,” ACS Nano, 5, 1459 (2011). [130] Q. H. Wang and M. C. Hersam, “Nanofabrication of heteromolecular organic nanostructures on epitaxial graphene via room temperature feedback-controlled lithography,” Nano Lett., 11, 589 (2011). [129] M. C. Hersam, “Nanoscience and nanotechnology in the post-hype era,” ACS Nano, 5, 1 (2011). [128] M. W. Graham, Y.-Z. Ma, A. A. Green, M. C. Hersam, and G. R. Fleming, “Pure optical dephasing dynamics in semiconducting single-walled carbon nanotubes,” J. Chem. Phys., 134, 034504 (2011). [127] T. P. Tyler, A.-I. Henry, R. P. Van Duyne, and M. C. Hersam, “Improved monodispersity of plasmonic nanoantennas via centrifugal processing,” J. Phys. Chem. Lett., 2, 218 (2011). [126] Y. T. Liang and M. C. Hersam, “Highly concentrated graphene solutions via polymer enhanced solvent exfoliation and iterative solvent exchange,” J. Am. Chem. Soc., 132, 17661 (2010). [125] M. Kinoshita, M. Steiner, M. Engel, J. P. Small, A. A. Green, M. C. Hersam, R. Krupke, E. E. Mendez, and Ph. Avouris, “The polarized carbon nanotube thin film LED,” Optics Express, 18, 25738 (2010). [124] Md. Z. Hossain, M. A. Walsh, and M. C. Hersam, “Scanning tunneling microscopy, spectroscopy, and nanolithography of epitaxial graphene chemically modified with aryl moieties,” J. Am. Chem. Soc., 132, 15399 (2010). [123] C. Georgi, A. A. Green, M. C. Hersam, and A. Hartschuh, “Probing exciton localization in single-walled carbon nanotubes using high-resolution near-field microscopy,” ACS Nano, 4, 5914 (2010).

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[122] W. J. Parak, P. S. Weiss, D. A. Bonnell, J. M. Buriak, J. H. Hafner, P. T. Hammon, M. C. Hersam, N. A. Kotov, R. E. Schaak, and C. G. Wilson, “Virtual issue on nanotoxicology,” ACS Nano, 4, 5513 (2010). [121] D. J. Comstock, S. T. Christensen, J. W. Elam, M. J. Pellin, and M. C. Hersam, “Synthesis of nanoporous activated iridium oxide films by anodized aluminum oxide templated atomic layer deposition,” Electrochem. Commun., 12, 1543 (2010). +[120] D. J. Comstock, S. T. Christensen, J. W. Elam, M. J. Pellin, and M. C. Hersam, “Tuning the composition and nanostructure of Pt/Ir films via anodized aluminum oxide templated atomic layer deposition,” Adv. Funct. Mater., 20, 3099 (2010). [119] M. Böhmler, N. Hartmann, C. Georgi, F. Hennrich, A. A. Green, M. C. Hersam, and A. Hartschuh, “Enhancing and redirecting carbon nanotube photoluminescence by an optical antenna,” Optics Express, 18, 16443 (2010). [118] A. L. Antaris, J.-W. T. Seo, A. A. Green, and M. C. Hersam, “Sorting single-walled carbon nanotubes by electronic type using nonionic, biocompatible block copolymers,” ACS Nano, 4, 4725 (2010). [117] M. Ha, Y. Xia, A. A. Green, W. Zhang, M. J. Renn, C. H. Kim, M. C. Hersam, and C. D. Frisbie, “Printed, sub-3V digital circuits on plastic from aqueous carbon nanotube inks,” ACS Nano, 4, 4388 (2010). [116] N. E. Sosa, C. Chen, J. Liu, S. Xie, T. J. Marks, and M. C. Hersam, “Nanoscale structure, composition, and charge transport analysis of transparent conducting oxide nanowires written by focused ion beam implantation,” J. Am. Chem. Soc., 132, 7347 (2010). [115] G. M. Mutlu, G. R. S. Budinger, A. A. Green, D. Urich, S. Soberanes, S. E. Chiarella, G. F. Alheid, D. R. McCrimmon, I. Szleifer, and M. C. Hersam, “Biocompatible nanoscale dispersion of single walled carbon nanotubes minimizes in vivo pulmonary toxicity,” Nano Lett., 10, 1664 (2010). [114] S. Essig, C. W. Marquardt, A. Vijayaraghavan, M. Ganzhorn, S. Dehm, F. Hennrich, F. Ou, A. A. Green, C. Sciascia, F. Bonaccorso, K.-P. Bohnen, H. v. Löhneysen, M. M. Kappes, P. M. Ajayan, M. C. Hersam, A. C. Ferrari, and R. Krupke, “Phonon-assisted electroluminescence from metallic carbon nanotubes and graphene,” Nano Lett., 10, 1589 (2010). *[113] Q. H. Wang and M. C. Hersam, “Ultra-high vacuum processing and characterization of chemically functionalized graphene,” ECS Trans., 28, 95 (2010). *[112] J. Liu and M. C. Hersam, “Recent developments in carbon nanotube sorting and selective growth,” MRS Bulletin, 35, 315 (2010).

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+[111] J. A. Kellar, J. M. P. Alaboson, Q. H. Wang, and M. C. Hersam, “Identifying and characterizing epitaxial graphene domains on partially graphitized SiC(0001) surfaces using scanning probe microscopy,” Appl. Phys. Lett., 96, 143103 (2010). [110] J.-C. Lin, J.-H. Kim, J. A. Kellar, M. C. Hersam, S. T. Nguyen, and M. J. Bedzyk, “Building conjugated organic structures on Si(111) surfaces via microwave-assisted Sonogashira coupling,” Langmuir, 26, 3771 (2010). [109] M. A. Walsh, S. R. Walter, K. H. Bevan, F. M. Geiger, and M. C. Hersam, “Phenylacetylene one-dimensional nanostructures on the Si(100)-2x1:H surface,” J. Am. Chem. Soc., 132, 3013 (2010). [108] D. J. Comstock, J. W. Elam, M. J. Pellin, and M. C. Hersam, “Integrated ultramicroelectrode-nanopipet probe for concurrent scanning electrochemical microscopy and scanning ion conductance microscopy,” Anal. Chem., 82, 1270 (2010). [107] M. D. Irwin, J. Liu, B. J. Leever, J. D. Servaites, M. C. Hersam, M. F. Durstock, and T. J. Marks, “Consequences of anode interfacial layer deletion. HCl-treated ITO in P3HT:PCBM-based bulk-heterojunction organic photovoltaic devices,” Langmuir, 26, 2584 (2010). [106] M. A. Walsh and M. C. Hersam, “Scanning tunneling microscopy study of one-dimensional o-phthalaldehyde chain reactions on the Si(100)-2x1:H surface,” Chem. Comm., 46, 1153 (2010). [105] M. Kalbac, A. A. Green, M. C. Hersam, and L. Kavan, “Tuning of sorted double-walled carbon nanotubes by electrochemical charging,” ACS Nano, 4, 459 (2010). +,*[104] A. A. Green and M. C. Hersam, “Emerging methods for producing monodisperse graphene solutions,” J. Phys. Chem. Lett., 1, 544 (2010). [103] A. L. Lipson, D. J. Comstock, and M. C. Hersam, “Nanoporous templates and membranes formed by nanosphere lithography and aluminum anodization,” Small, 5, 2807 (2009). [102] A. A. Green and M. C. Hersam, “Solution phase production of graphene with controlled thickness via density differentiation,” Nano Lett., 9, 4031 (2009). [101] H. Harutyunyan, T. Gokus, A. A. Green, M. C. Hersam, M. Allegrini, and A. Hartschuh, “Photoluminescence from disorder induced states in individual single-walled carbon nanotubes,” Phys. Stat. Sol. B, 246, 2679 (2009). [100] S. T. Christensen, B. Lee, Z. Feng, M. C. Hersam, and M. J. Bedzyk, “Hierarchical nanoparticle morphology for platinum supported on SrTiO3 (001): A combined microscopy and X-ray scattering study,” Appl. Surf. Sci., 256, 423 (2009).

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*[99] G. N. Ostojic, Y. T. Liang, and M. C. Hersam, “Catalytically active nanocomposites of electronically coupled carbon nanotubes and platinum nanoparticles formed via vacuum filtration,” Nanotechnology, 20, 434019 (2009). [98] A. V. Naumov, O. A. Kuznetsov, A. R. Harutyunyan, A. A. Green, M. C. Hersam, D. E. Resasco, P. N. Nikolaev, and R. B. Weisman, “Quantifying the semiconducting fraction in single-walled carbon nanotube samples through comparative atomic force and photoluminescence microscopies,” Nano Lett., 9, 3203 (2009). [97] N. L. Yoder, J. S. Fakonas, and M. C. Hersam, “Control and characterization of cyclopentene unimolecular dissociation on Si(100) with scanning tunneling microscopy,” J. Am. Chem. Soc., 131, 10059 (2009). *[96] M. C. Hersam, “Nanotubes sorted using DNA,” Nature, 460, 186 (2009). [95] L. Nougaret, H. Happy, G. Dambrine, V. Derycke, J.-P. Bourgoin, A. A. Green, and M. C. Hersam, “80 GHz field-effect transistors produced using high purity semiconducting single-walled carbon nanotubes,” Appl. Phys. Lett., 94, 243505 (2009). [94] S. Wansom, T. O. Mason, M. C. Hersam, D. Drane, G. Light, R. Cormia, S. Stevens, and G. Bodner, “A rubric for post-secondary degree programs in nanoscience and nanotechnology,” International Journal of Engineering Education, 25, 615 (2009). +[93] Q. H. Wang and M. C. Hersam, “Room-temperature molecular-resolution characterization of self-assembled organic monolayers on epitaxial graphene,” Nature Chemistry, 1, 206 (2009). [92] H. Harutyunyan, T. Gokus, A. A. Green, M. C. Hersam, M. Allegrini, and A. Hartschuh, “Defect-induced photoluminescence from dark excitonic states in individual single-walled carbon nanotubes,” Nano Lett., 9, 2010 (2009). *[91] M. A. Walsh and M. C. Hersam, “Atomic-scale templates patterned by ultrahigh vacuum scanning tunneling microscopy on silicon,” Annu. Rev. Phys. Chem., 60, 193 (2009). +[90] S. T. Christensen, J. W. Elam, F. A. Rabuffetti, Q. Ma, S. J. Weigand, B. Lee, S. Seifert, P. C. Stair, K. R. Poeppelmeier, M. C. Hersam, and M. J. Bedzyk, “Controlled growth of platinum nanoparticles on strontium titanate nanocubes by atomic layer deposition,” Small, 5, 750 (2009). [89] J.-C. Lin, J. A. Kellar, J.-H. Kim, N. L. Yoder, K. H. Bevan, S. T. Nguyen, M. C. Hersam, and M. J. Bedzyk, “Atomic-scale x-ray structural analysis of self-assembled monolayers on silicon,” Eur. Phys. J. Special Topics, 167, 33 (2009). [88] J. A. Kellar, J.-C. Lin, J.-H. Kim, N. L. Yoder, K. H. Bevan, G. Y. Stokes, F. M. Geiger, S. T. Nguyen, M. J. Bedzyk, and M. C. Hersam, “Probing surface-adlayer conjugation on organic-modified Si(111) surfaces with microscopy, scattering, spectroscopy, and density functional theory,” J. Phys. Chem. C, 113, 2919 (2009).

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[87] D. Drane, S. Swarat, G. Light, M. C. Hersam, and T. O. Mason, “An evaluation of the efficacy and transferability of a nanoscience module,” J. Nano Ed., 1, 8 (2009). [86] S. T. Christensen, J. W. Elam, B. Lee, Z. Feng, M. J. Bedzyk, and M. C. Hersam, “Nanoscale structure and morphology of atomic layer deposition platinum on SrTiO3 (001),” Chem. Mater., 21, 516 (2009). +[85] N. E. Sosa, J. Liu, C. Chen, T. J. Marks, and M. C. Hersam, “Nanoscale writing of transparent conducting oxide features with a focused ion beam,” Advanced Materials, 21, 721 (2009). +[84] A. A. Green, M. C. Duch, and M. C. Hersam, “Isolation of single-walled carbon nanotube enantiomers by density differentiation,” Nano Research, 2, 69 (2009). +[83] A. A. Green and M. C. Hersam, “Processing and properties of highly enriched double-wall carbon nanotubes,” Nature Nanotechnology, 4, 64 (2009). [82] M. Engel, J. P. Small, M. Steiner, M. Freitag, A. A. Green, M. C. Hersam, and Ph. Avouris, “Thin film nanotube transistors based on self-assembled, aligned, semiconducting carbon nanotube arrays,” ACS Nano, 2, 2445 (2008). +[81] M. S. Arnold, J. Suntivich, S. I. Stupp, and M. C. Hersam, “Hydrodynamic characterization of surfactant encapsulated carbon nanotubes using an analytical ultracentrifuge,” ACS Nano, 2, 2291 (2008). [80] Y.-Z. Ma, M. W. Graham, G. R. Fleming, A. A. Green, and M. C. Hersam, “Ultrafast exciton dephasing in semiconducting single-walled carbon nanotubes,” Phys. Rev. Lett., 101, 217402 (2008). [79] Q. H. Wang and M. C. Hersam, “Orthogonal self-assembly of interconnected one-dimensional inorganic and organic nanostructures on the Si(100) surface,” J. Am. Chem. Soc., 130, 12896 (2008). [78] O. Frank, L. Kavan, A. A. Green, M. C. Hersam, and L. Dunsch, “In-situ Vis/NIR spectroelectrochemistry of single-walled carbon nanotubes enriched with (6,5) tubes,” Phys. Stat. Sol. B, 245, 2239 (2008). [77] H. Qian, C. Georgi, N. Anderson, A. A. Green, M. C. Hersam, L. Novotny, and A. Hartschuh, “Exciton transfer and propagation in carbon nanotubes studied by near-field optical microscopy,” Phys. Stat. Sol. B, 245, 2243 (2008). [76] H. Qian, P. T. Araújo, C. Georgi, T. Gokus, N. Hartmann, A. A. Green, A. Jorio, M. C. Hersam, L. Novotny, and A. Hartschuh, “Visualizing the local optical response of semiconducting carbon nanotubes to DNA-wrapping,” Nano Lett., 8, 2706 (2008).

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[75] L. Kavan, O. Frank, A. A. Green, M. C. Hersam, J. Koltai, V. Zólyomi, J. Kürti, and L. Dunsch, “In-situ Raman spectroelectrochemistry of single-walled carbon nanotubes: Investigation of materials enriched with (6,5) tubes,” J. Phys. Chem. C, 112, 14179 (2008). [74] G. N. Ostojic, J. R. Ireland, and M. C. Hersam, “Noncovalent functionalization of DNA-wrapped single-walled carbon nanotubes with platinum-based DNA cross-linkers,” Langmuir, 24, 9784 (2008). +[73] Q. H. Wang and M. C. Hersam, “Atomically resolved charge redistribution for Ga nanocluster arrays on the Si(111)-7x7 surface,” Small, 4, 915 (2008). [72] C. Georgi, N. Hartmann, T. Gokus, A. A. Green, M. C. Hersam, and A. Hartschuh, “Photoinduced luminescence blinking and bleaching in individual single-walled carbon nanotubes,” Chem. Phys. Chem., 9, 1460 (2008). *[71] M. C. Hersam, “Progress towards monodisperse single-walled carbon nanotubes,” Nature Nanotechnology, 3, 387 (2008). [70] A. A. Green and M. C. Hersam, “Colored semitransparent conductive coatings consisting of monodisperse metallic single-walled carbon nanotubes,” Nano Lett., 8, 1417 (2008). [69] H. Qian, C. Georgi, N. Anderson, A. A. Green, M. C. Hersam, L. Novotny, and A. Hartschuh, “Exciton energy transfer in pairs of single-walled carbon nanotubes,” Nano Lett., 8, 1363 (2008). [68] G. H. Chan, M.-L. Liu, L.-D. Chen, F.-Q. Huang, D. E. Bugaris, D. M. Wells, J. R. Ireland, M. C. Hersam, R. P. Van Duyne, and J. A. Ibers, “Syntheses, crystal structures, and physical properties of La5Cu6O4S7 and La5Cu6.33O4S7,” Inorg. Chem., 47, 4368 (2008). [67] T. Gokus, A. Hartschuh, H. Harutyunyan, M. Allegrini, F. Hennrich, M. Kappes, A. A. Green, M. C. Hersam, P. T. Araujo, and A. Jorio, “Exciton decay dynamics in individual carbon nanotubes at room temperature,” Appl. Phys. Lett., 92, 153116 (2008). [66] N. P. Guisinger, N. L. Yoder, S. P. Elder and M. C. Hersam, “Subnanometer imaging of adsorbate-induced electronic structure perturbation on silicon surfaces,” J. Phys. Chem. C, 112, 2116 (2008). [65] B. J. Leever, M. F. Durstock, M. D. Irwin, A. W. Hains, T. J. Marks, L. S. C. Pingree, and M. C. Hersam, “Spatially resolved photocurrent mapping of operating organic photovoltaic devices using atomic force photovoltaic microscopy,” Appl. Phys. Lett., 92, 013302 (2008). [64] S. Jin, Y. Yang, J. E. Medvedeva, L. Wang, S. Li, N. Cortes, J. R. Ireland, A. W. Metz, J. Ni, M. C. Hersam, A. J. Freeman, and T. J. Marks, “Tuning the properties of transparent oxide conductors. Dopant ion size and electronic structure effects on CdO-based transparent conducting oxides. Ga- and In doped CdO thin films grown by MOCVD,” Chem. Mater., 20, 220 (2008).

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[63] M. J. Schmitz, C. R. Kinser, N. E. Cortes, and M. C. Hersam, “Ambient atomic force microscope nanoscale oxidation of hydrogen-passivated silicon with conductive diamond coated probes,” Small, 3, 2053 (2007). *[62] A. A. Green and M. C. Hersam, “Ultracentrifugation of single-walled carbon nanotubes,” Materials Today, 10, 59 (2007). [61] L. S. C. Pingree, M. T. Russell, B. J. Scott, T. J. Marks, and M. C. Hersam, “Probing individual nanoscale organic light-emitting diodes with atomic force electroluminescence microscopy and bridge-enhanced nanoscale impedance microscopy,” Organic Electronics, 8, 465 (2007). [60] L. S. C. Pingree, M. J. Schmitz, D. E. Kramer, and M. C. Hersam, “Laser assisted field induced oxide nanopatterning of hydrogen passivated silicon surfaces,” Appl. Phys. Lett., 91, 073110 (2007). [59] J. W. Elam, A. V. Zinovev, M. J. Pellin, D. J. Comstock, and M. C. Hersam, “Nucleation and growth of noble metals on oxide surfaces using atomic layer deposition,” ECS Trans., 3, 271 (2007). [58] S. Schneider, J. R. Ireland, M. C. Hersam, and T. J. Marks, “Copper(I) tert-butylthiolato clusters as single-source precursors for high-quality chalcocite thin films: Film growth and microstructure control,” Chem. Mater., 19, 2780 (2007). [57] Z. Zhu, J. Crochet, M. S. Arnold, M. C. Hersam, H. Ulbricht, D. Resasco, and T. Hertel, “Pump-probe spectroscopy of exciton dynamics in (6,5) carbon nanotubes,” J. Phys. Chem. C, 111, 3831 (2007). [56] L. S. C. Pingree, M. T. Russell, T. J. Marks, and M. C. Hersam, “Monitoring interface traps in operating organic light-emitting diodes using impedance spectroscopy,” Thin Solid Films, 515, 4783 (2007). [55] R. Basu, J.-C. Lin, C.-Y. Kim, M. J. Schmitz, N. L. Yoder, J. A. Kellar, M. J. Bedzyk, and M. C. Hersam, “Structural characterization of 4-bromostyrene self-assembled monolayers on Si(111),” Langmuir, 23, 1905 (2007). +,*[54] N. P. Guisinger, S. P. Elder, N. L. Yoder, and M. C. Hersam, “Ultra-high vacuum scanning tunneling microscopy investigation of free radical adsorption to the Si(111)-7x7 surface,” Nanotechnology, 18, 044011 (2007). *[53] E. T. Foley and M. C. Hersam, “Assessing the need for nanotechnology education reform in the United States,” Nanotechnology Law and Business, 3, 467 (2006).

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[52] N. L. Yoder, N. P. Guisinger, M. C. Hersam, R. Jorn, C.-C. Kaun, and T. Seideman, “Quantifying desorption of saturated hydrocarbons from silicon with quantum calculations and scanning tunneling microscopy,” Phys. Rev. Lett., 97, 187601 (2006). [51] M. S. Arnold, A. A. Green, J. F. Hulvat, S. I. Stupp, and M. C. Hersam, “Sorting carbon nanotubes by electronic structure via density differentiation,” Nature Nanotech., 1, 60 (2006). [50] G. H. Chan, B. Deng, M. Bertoni, J. R. Ireland, M. C. Hersam, T. O. Mason, R. P. Van Duyne, and J. A. Ibers, “Syntheses, structures, physical properties, and theoretical studies of CeMxOS (M = Cu, Ag; x ~ 0.8) and CeAgOS,” Inorg. Chem., 45, 8264 (2006). *[49] M. C. Hersam, “Monitoring and analyzing nonlinear dynamics in atomic force microscopy,” Small, 2, 1122 (2006). [48] L. S. C. Pingree, M. T. Russell, T. J. Marks, and M. C. Hersam, “Field dependent negative capacitance in small-molecule organic light-emitting diodes,” J. Appl. Phys., 100, 044502 (2006). +[47] M. T. Russell, L. S. C. Pingree, M. C. Hersam, and T. J. Marks, “Micro-scale features and surface chemical functionality patterned by electron beam lithography. A novel route to poly(dimethylsiloxane) (PDMS) stamp fabrication,” Langmuir, 22, 6712 (2006). *[46] R. Basu, C. R. Kinser, J. D. Tovar, and M. C. Hersam, “Bromine functionalized molecular adlayers on hydrogen passivated silicon surfaces,” Chem. Phys., 326, 144 (2006). [45] C.-Y. Kim, J. W. Elam, M. J. Pellin, D. Goswami, S. T. Christensen, M. C. Hersam, P. C. Stair, and M. J. Bedzyk, “Imaging of atomic layer deposited (ALD) tungsten monolayers on α-TiO2(110) by X-ray standing wave Fourier inversion,” J. Phys. Chem. B, 110, 12616 (2006). [44] C. R. Kinser, M. J. Schmitz, and M. C. Hersam, “Kinetics and mechanism of atomic force microscope field induced oxidation on hydrogen-passivated silicon in inert organic solvents,” Adv. Mater., 18, 1377 (2006). [43] L. S. C. Pingree and M. C. Hersam, “Bridge enhanced nanoscale impedance microscopy,” Appl. Phys. Lett., 87, 233117 (2005). [42] T. Rakshit, G.-C. Liang, A.W. Ghosh, M. C. Hersam, and S. Datta, “Molecules on silicon: Self-consistent first-principles theory and calibration to experiments,” Phys. Rev. B, 72, 125305 (2005). [41] R. Basu, J. D. Tovar, and M. C. Hersam, “Scanning tunneling microscopy study of single molecule motion on the Si(100)-2×1 surface,” J. Vac. Sci. Technol., 23, 1785 (2005). [40] M. E. Greene, A. N. Chiaramonti, S. T. Christensen, L. X. Cao, M. J. Bedzyk, and M. C. Hersam, “Controlled nanoscale morphology of hematite (0001) surfaces grown by chemical vapor transport,” Adv. Mater., 17, 1765 (2005).

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+,*[39] N. P. Guisinger, N. L. Yoder, and M. C. Hersam, “Probing charge transport at the single molecule level on silicon by using cryogenic ultra-high vacuum scanning tunneling microscopy,” Proc. Nat. Acad. Sci., 102, 8838 (2005). [38] T. J. Marks, Y. Yang, S. Jin, J. E. Medvedeva, J. R. Ireland, A. W. Metz, J. Ni, M. C. Hersam, and A. J. Freeman, “CdO as the archetypical transparent conducting oxide. Systematics of dopant ionic radius and electronic structure effects on charge transport and band structure,” J. Am. Chem. Soc., 127, 8796 (2005). [37] M. S. Arnold, M. O. Guler, M. C. Hersam, and S. I. Stupp, “Encapsulation of carbon nanotubes by self-assembling peptide amphiphiles,” Langmuir, 21, 4705 (2005). [36] M. S. Arnold, S. I. Stupp, and M. C. Hersam, “Enrichment of single-walled carbon nanotubes by diameter in density gradients,” Nano Lett., 5, 713 (2005). [35] L. S. C. Pingree, E. F. Martin, K. R. Shull, and M. C. Hersam, “Nanoscale impedance microscopy: A characterization tool for nanoelectronic devices and circuits,” IEEE T. Nanotechnol., 4, 255 (2005). +[34] J. C. Stendahl, E. R. Zubarev, M. S. Arnold, M. C. Hersam, H.-J. Sue, and S. I. Stupp, “Structural modifications to polystyrene via self-assembling molecules,” Adv. Funct. Mater., 15, 487 (2005). [33] L. S. C. Pingree, B. J. Scott, M. T. Russell, T. J. Marks, and M. C. Hersam, “Negative capacitance in organic light-emitting diodes,” Appl. Phys. Lett., 86, 073509 (2005). [32] C. R. Kinser, M. J. Schmitz, and M. C. Hersam, “Conductive atomic force microscope nanopatterning of hydrogen passivated silicon in inert organic solvents,” Nano Lett., 5, 91 (2005). [31] K. R. Shull, E. F. Martin, P. L. Drzal, M. C. Hersam, A. Markowitz, and R. McSwain, “Adhesive transfer of thin viscoelastic films,” Langmuir, 21, 178 (2005). [30] A. S. Baluch, N. P. Guisinger, and M. C. Hersam, “Negative differential resistance through individual organic molecules bound to the Si(111)-7×7 surface,” TMS Lett., 1, 125 (2004). [29] L. S. C. Pingree, M. M. Kern, B. J. Scott, T. J. Marks, and M. C. Hersam, “Quantum efficiency of micron scaled organic light emitting diodes using atomic force electroluminescence microscopy,” TMS Lett., 1, 127 (2004). [28] E. T. Foley, N. L. Yoder, N. P. Guisinger, and M. C. Hersam, “Cryogenic variable temperature ultra-high vacuum scanning tunneling microscope for single molecule studies on silicon surfaces,” Rev. Sci. Instrum., 75, 5280 (2004).

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*[27] M. E. Greene, C. R. Kinser, D. E. Kramer, L. S. C. Pingree, and M. C. Hersam, “Application of scanning probe microscopy to the characterization and fabrication of hybrid nanomaterials,” Microscopy Research and Technique, 64, 415 (2004). +[26] R. Basu, N. P. Guisinger, M. E. Greene, and M. C. Hersam, “Room temperature nanofabrication of atomically registered heteromolecular organosilicon nanostructures using multistep feedback controlled lithography,” Appl. Phys. Lett., 85, 2619 (2004). [25] H. Jin, C. R. Kinser, P. A. Bertin, D. E. Kramer, J. A. Libera, M. C. Hersam, S. T. Nguyen, and M. J. Bedzyk, “X-ray studies of self-assembled monolayers grown on hydrogen-terminated Si(111),” Langmuir, 20, 6252 (2004). [24] L. S. C. Pingree, M. C. Hersam, M. M. Kern, B. J. Scott, and T. J. Marks, “Spatially resolved electroluminescence of operating organic light-emitting diodes using conductive atomic force microscopy,” Appl. Phys. Lett., 85, 344 (2004). *[23] M. C. Hersam and R. G. Reifenberger, “Charge transport through molecular junctions,” MRS Bull., 29, 385 (2004). +,*[22] N. P. Guisinger, R. Basu, M. E. Greene, A. S. Baluch, and M. C. Hersam, “Observed suppression of room temperature negative differential resistance in organic monolayers on Si(100),” Nanotechnology, 15, S452 (2004). [21] M. E. Greene, N. P. Guisinger, R. Basu, A. S. Baluch, and M. C. Hersam, “Nitroxyl free radical binding to Si(100): A combined STM and computational modeling study,” Surf. Sci., 559, 16 (2004). [20] A. S. Baluch, N. P. Guisinger, R. Basu, E. T. Foley, and M. C. Hersam, “Atomic-level robustness of the Si(100)-21:H surface following liquid phase chemical treatments in atmospheric pressure environments,” J. Vac. Sci. Technol. A, 22, L1 (2004). [19] M. W. Such, D. E. Kramer, and M. C. Hersam, “Reproducible lateral force microscopy measurements for quantitative comparisons of the frictional and chemical properties of nanostructures,” Ultramicroscopy, 99, 189 (2004). [18] M. C. Hersam, M. Luna, and G. Light, “Implementation of interdisciplinary group learning and peer assessment in a nanotechnology engineering course,” Journal of Engineering Education, 93, 49 (2004). +[17] N. P. Guisinger, M. E. Greene, R. Basu, A. S. Baluch, and M. C. Hersam, “Room temperature negative differential resistance through individual molecules on silicon surfaces,” Nano Lett., 4, 55 (2004). [16] B. Wang, X. Zheng, J. Michl, E. T. Foley, M. C. Hersam, A. Bilić, M. J. Crossley, J. R. Reimers, and N. S. Hush, “An azanorbornadiene anchor for molecular-level construction on silicon(100),” Nanotechnology, 15, 324 (2004).

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[15] N. P. Guisinger, R. Basu, A. S. Baluch, and M. C. Hersam, “Molecular electronics on silicon: An ultra-high vacuum scanning tunneling microscopy study,” Ann. N. Y. Acad. Sci., 1006, 227 (2003). [14] M. S. Arnold, J. E. Sharping, S. I. Stupp, P. Kumar, and M. C. Hersam, “Band gap photobleaching in isolated single-walled carbon nanotubes,” Nano Lett., 3, 1549 (2003). *[13] M. C. Hersam and Y. W. Chung, “Detecting elusive surface atoms with atomic force microscopy,” Proc. Natl. Acad. Sci. USA, 100, 12531 (2003). [12] Y. Koide, M. W. Such, R. Basu, G. Evmenenko, J. Cui, P. Dutta, M. C. Hersam, and T. J. Marks, “Hot microcontact printing for patterning ITO surfaces. Methodology, morphology, microstructure, and OLED charge injection barrier imaging,” Langmuir, 19, 86 (2003). [11] M. C. Hersam, N. P. Guisinger, J. Lee, K. Cheng, and J. W. Lyding, “Variable temperature study of the passivation of dangling bonds at Si(100)-2×1 reconstructed surfaces with H and D,” Appl. Phys. Lett., 80, 201 (2002). [10] E. F. Fabbroni, K. R. Shull, and M. C. Hersam, "Adhesive and mechanical properties of soft nanocomposites: Model studies with blended latex films," J. Polym. Sci. Polym. Phys., 39, 3090 (2001). [9] P. G. Collins, M. C. Hersam, M. Arnold, R. Martel, and Ph. Avouris, “Current saturation and electrical breakdown in multiwalled carbon nanotubes,” Phys. Rev. Lett., 86, 3128 (2001). [8] M. C. Hersam, N. P. Guisinger, J. W. Lyding, D. S. Thompson, and J. S. Moore, “Atomic-level study of the robustness of the Si(100)-21:H surface following exposure to ambient conditions,” Appl. Phys. Lett., 78, 886 (2001). [7] M. C. Hersam, J. Lee, N. P. Guisinger, and J. W. Lyding, “Implications of atomic-level manipulation on the Si(100) surface: From enhanced CMOS reliability to molecular nanoelectronics,” Superlattices and Microstructures, 27, 583 (2000). [6] M. C. Hersam, N. P. Guisinger, and J. W. Lyding, “Silicon-based molecular nanotechnology,” Nanotechnology, 11, 70 (2000). [5] M. C. Hersam, N. P. Guisinger, and J. W. Lyding, “Isolating, imaging, and electrically characterizing individual organic molecules on the Si(100) surface with the scanning tunneling microscope,” J. Vac. Sci. Technol. A, 18, 1349 (2000). [4] M. C. Hersam, G. C. Abeln, and J. W. Lyding, "An approach for efficiently locating and electrically contacting nanostructures fabricated via UHV-STM lithography on Si(100)," Microelectronic Engineering, 47, 235 (1999).

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[3] G. C. Abeln, M. C. Hersam, D. S. Thompson, S.-T. Hwang, H. Choi, J. S. Moore, and J. W. Lyding, "Approaches to nanofabrication on Si(100) surfaces: Selective area chemical vapor deposition of metals and selective chemisorption of organic molecules," J. Vac. Sci. Technol. B, 16, 3874 (1998). [2] J. W. Lyding, K. Hess, G. C. Abeln, D. S. Thompson, J. S. Moore, M. C. Hersam, E. T. Foley, J. Lee, Z. Chen, S.-T. Hwang, H. Choi, Ph. Avouris, and I. C. Kiziyalli, "UHV STM nanofabrication and hydrogen/deuterium desorption from silicon surfaces: implications for CMOS technology," Appl. Surf. Sci., 132, 221 (1998). [1] M. C. Hersam, A. C. F. Hoole, S. J. O'Shea, and M. E. Welland, "Potentiometry and repair of electrically stressed nanowires using atomic force microscopy," Appl. Phys. Lett., 72, 915 (1998). Conference Proceedings (*indicates invited paper) [25] J. Wu, Q. Li, Y. Xu, Z. Yao, J. Kang, X. Liu, C. Wolvertron, M. C. Hersam, and V. P. Dravid, “Anisotropic lithiation and sodiation of ReS2 studied by in-situ TEM,” Microsc. Microanal., 24, 1570 (2018). [24] Y. Xu, J. Kang, M. C. Hersam, J. Wu, and V. P. Dravid, “Lithium electrochemistry of WS2 nanoflakes studied by in-situ TEM,” Microsc. Microanal., 24, 1860 (2018). *[23] V. K. Sangwan, H.-S. Lee, and M. C. Hersam, “Gate-tunable memristors from monolayer MoS2,” Proceedings of the 63rd International Electron Devices Meeting, 17-107, 5.1.1 (2017). [22] Y.-M. Fu, M.-C. Chou, Y.-T. Cheng, E. B. Secor, and M. C. Hersam, “An inkjet printed piezoresistive back-to-back graphene tactile sensor for endosurgical palpation applications,” Proc. IEEE MEMS, 30, 612 (2017). *[21] M. W. Graham, Y.-Z. Ma, A. A. Green, M. C. Hersam, and G. R. Fleming, “Exciton annihilation and dephasing dynamics in semiconducting single-walled carbon nanotubes,” Proc. of SPIE, 7600, 76001F (2010). *[20] A. A. Green, Q. H. Wang, and M. C. Hersam, “Chemically tailored carbon-based nanoelectronic materials and devices,” Proceedings of the 9th IEEE Conference on Nanotechnology, 1, 82 (2009). *[19] M. C. Hersam, “Processing and properties of monodisperse single-walled and double-walled carbon nanotubes,” Electrochem. Soc., 901, 1143 (2009). [18] Y.-Z. Ma, M. W. Graham, G. R. Fleming, A. A. Green, and M. C. Hersam, “Probing exciton dynamics of semiconducting single-walled carbon nanotubes using photon echo spectroscopy,” Ultrafast Phenomena XVI (Springer Series in Chemical Physics), pp. 277-279 (2008).

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[17] M. Engel, J. P. Small, M. Steiner, Y.-M. Lin, A. A. Green, M. C. Hersam, Ph. Avouris, “Top-gated thin film FETs fabricated from arrays of self-aligned semiconducting carbon nanotubes,” Proceedings of the 66th Device Research Conference (IEEE, New York, 2008), p. 149. [16] J.-H. Kim, J. A. Kellar, M. C. Hersam, and S. T. Nguyen, “Polymer-inorganic nanocomposites from Si-based substrates: Applications of surface-initiated ring-opening metathesis polymerization,” ACS Symp. Ser., 996, 303 (2008). *[15] M. C. Hersam, “Tuning the electrical and optical properties of monodisperse carbon-based nanomaterials,” Electrochem. Soc., 801, 974 (2008). *[14] M. C. Hersam, “Isolating monodisperse single-walled carbon nanotubes via density gradient ultracentrifugation,” Electrochem. Soc., 701, 1042 (2007). *[13] T. Hertel, Z. Zhu, J. Crochet, M. S. Arnold, M. C. Hersam, and D. Resasco, “Exciton dynamics in carbon nanotubes,” Electrochem. Soc., 701, 1041 (2007). *[12] M. C. Hersam, “Electronic and optical devices based on purified biofunctionalized carbon nanotubes,” Electrochem. Soc., 602, 1175 (2006). *[11] M. C. Hersam, D. Y. Li, T. S. Fisher, W. R. Ashurst, R. D. Malucci, and B. Rickett, “Applications and properties of nanomaterials in electrical contacts,” Proceedings of the IEEE Holm Conference on Electrical Contacts, 52, 251 (2006). [10] L. S. C. Pingree, M. T. Russell, T. J. Marks, and M. C. Hersam, “Negative capacitance in organic light-emitting diodes: Implications for display applications,” Proceedings of the 64th Device Research Conference (IEEE, New York, 2006), p. 143. *[9] M. S. Arnold, S. I. Stupp, and M. C. Hersam, “Optimizing the purification of biofunctionalized carbon nanotubes,” Proceedings of the 2006 ASME International Conference on Manufacturing Science and Engineering, 1, 21046 (2006). *[8] N. L. Yoder and M. C. Hersam, “Probing the performance and reliability of silicon-based molecular electronic devices with ultra-high vacuum scanning tunneling microscopy,” Proceedings of the 3rd Annual Foundations of Nanoscience Conference, 1, 80 (2006). *[7] N. P. Guisinger, R. Basu, M. E. Greene, A. S. Baluch, and M. C. Hersam, “Characterization of silicon-based molecular resonant tunneling diodes with scanning tunneling microscopy,” Proceedings of the 62nd Device Research Conference (IEEE, New York, 2004), p. 195. *[6] M. S. Arnold, S. Lan, S. C. Cruz, J. E. Sharping, S. I. Stupp, P. Kumar, and M. C. Hersam, “Optical absorption and transient photobleaching in solutions of surfactant encapsulated and DNA-wrapped single-walled carbon nanotubes,” Proc. of SPIE, 5359, 376 (2004).

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*[5] M. S. Arnold, S. I. Stupp, and M. C. Hersam, “Tuning the optical properties of carbon nanotube solutions using amphiphilic self-assembly,” Proc. of SPIE, 4999, 238 (2003). *[4] A. S. Baluch, R. Basu, N. P. Guisinger, C. R. Kinser, D. E. Kramer, M. W. Such, and M. C. Hersam, “Nanoscale control of friction and chemistry on silicon surfaces,” Mat. Res. Soc. Symp. Proc., 750, Y9.1.1 (2003). *[3] M. C. Hersam, “Single molecule sensing, characterization, and actuation,” Proceedings of the 6th World Multiconference on Systemics, Cybernetics, and Informatics, 17, 338 (2002). *[2] M. C. Hersam, N. P. Guisinger, and J. W. Lyding, “Assessing the impact of fundamental scanning tunneling microscopy studies on VLSI technology,” Proceedings of the 9th NASA Symposium on VLSI Design, 1, 5.1.1 (2000). [1] S. Ahuja, M. C. Hersam, C. Ross, H. T. Chien, and A. C. Raptis, "A micromachined surface acoustic wave sensor for detecting inert gases," Proceedings of the 1996 IEEE Ultrasonics Symposium, 1, 435 (1996). Books [1] Nanotechnology Research Directions for Societal Needs in 2020, M. C. Roco, C. A. Mirkin, and M. C. Hersam, eds., Springer, 2011, ISBN: 978-94-007-1167-9. Book Chapters [5] H. N. Arnold and M. C. Hersam, “Optoelectronic Applications of Monodisperse Carbon Nanomaterials,” in The Wonder of Nanotechnology: Quantum Optoelectronic Devices and Applications, M. Razeghi. L. Esaki, and K. von Klitzing, Eds., SPIE Press, Bellingham, WA, pp. 795-821 (2013). [4] A. R. Hall, J. M. Keegstra, M. C. Duch, M. C. Hersam, and C. Dekker, “Measuring Single-Wall Carbon Nanotubes with Solid-State Nanopores,” Nanopore-Based Technology, Methods in Molecular Biology, Springer, Vol. 870, Ch. 13, pp. 227-239, 2012 (DOI: 10.1007/978-1-61779-773-6_13). [3] N. L. Yoder, R. Jorn, C.-C. Kaun, T. Seideman, and M. C. Hersam, “Current-driven desorption at the organic molecule-semiconductor interface: Cyclopentene on Si(100),” Current-Driven Phenomena in Nanoelectronics, editor: Tamar Seideman, Pan Stanford Publishing, 2011, Ch. 7 (ISBN: 978-981-4241-50-2). [2] G. M. Mutlu, M. C. Hersam, and G. R. Scott Budinger, “Health risks of nanoparticles and nanotechnology,” Air Pollution and Respiratory Effects, editors: Nurdan Kokturk, Hasan Bayram, Kivilcim Oguzulgen, and Sibel Atis, Research Signpost Publishers, 2010, Ch. 4 (ISBN: 978-81-308-0412-5).

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[1] Ph. Avouris, R. Martel, H. Ikeda, M. C. Hersam, H. R. Shea, and A. Rochefort, “Electrical properties of carbon nanotubes: spectroscopy, localization, and electrical breakdown,” Science and Application of Nanotubes, editors: David Tománek and Richard Enbody, Kluwer Academic Publishers, 2000, p. 223 (ISBN: 0-306-46372-5). Conference Presentations (*invited talk, &keynote talk, +plenary talk) *[376] M. C. Hersam, “Hexagonal boron nitride ionogel electrolytes for solid-state batteries,” presented orally by M. C. Hersam at the Korean Academy of Science and Technology 21st Frontier Scientists Workshop, Cambridge, Massachusetts (12/6/19). *[375] M. C. Hersam, “Emerging neuromorphic devices based on two-dimensional materials,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (12/2/19). *[374] M. C. Hersam, “Liquid phase exfoliation of 2D layered materials and applications,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (12/1/19). *[373] M. C. Hersam, “Emerging neuromorphic devices based on two-dimensional materials,” presented orally by M. C. Hersam at the Joint Annual Meeting of the IEEE Magnetics Society and IEEE Nanotechnology Council, Evanston, Illinois (11/21/19). &[372] M. C. Hersam, “Fundamentals and applications of solution-processed two-dimensional materials,” presented orally by M. C. Hersam at the Workshop on 2D Nanomaterials for Human Health and the Environment, San Diego, California (11/6/19). *[371] M. C. Hersam, “Interfacial engineering of chemically reactive two-dimensional materials,” presented orally by M. C. Hersam at the AVS 66th International Symposium, Columbus, Ohio (10/24/19). *[370] M. C. Hersam, “Low-dimensional nanoelectronic materials and heterostructures,” presented orally by M. C. Hersam at the Argonne National Laboratory Microelectronics Workshop, Argonne, Illinois (10/15/19). +[369] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam as the Kreidl Memorial Lecture at the 31st Rio Grande Symposium on Advanced Materials, Albuquerque, New Mexico (9/16/19). +[368] M. C. Hersam, “Chemically tailored two-dimensional materials for electronic and energy technologies,” presented orally by M. C. Hersam at the International Conference on Functional Nanomaterials and Nanodevices, Prague, Czech Republic (9/11/19). *[367] M. C. Hersam, “Hexagonal boron nitride gel electrolytes for solid-state batteries,” presented orally by M. C. Hersam at the 258th American Chemical Society Meeting, San Diego, California (8/28/19).

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*[366] M. C. Hersam, “Emerging opportunities for nanoelectronic materials assembly,” presented orally by M. C. Hersam at the Workshop on Nano Assembly 2040, Shanghai, China (8/3/19). *[365] M. C. Hersam, “Self-aligned short-channel van der Waals heterojunction devices,” presented orally by M. C. Hersam at the 20th International Conference on the Science and Applications of Nanotubes, Würzburg, Germany (7/24/19). *[364] M. C. Hersam, “Emerging electronic and energy applications for chemically tailored two-dimensional materials,” presented orally by M. C. Hersam at the International Summer School on 1D and 2D Semiconductor Nanomaterials, La Marana, Corsica (7/11/19). *[363] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive 2D materials,” presented orally by M. C. Hersam at the Graphene 2019 International Conference, Rome, Italy (6/27/19). *[362] M. C. Hersam, “Emerging electronic and energy applications for solution-processed two-dimensional materials,” presented orally by M. C. Hersam at the 10th International Conference on Materials for Advanced Technologies, Singapore, Singapore (6/24/19). *[361] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive 2D materials,” presented orally by M. C. Hersam at the 10th International Conference on Materials for Advanced Technologies, Singapore, Singapore (6/24/19). *[360] M. C. Hersam, “Emerging electronic and energy applications for solution-processed two-dimensional materials,” presented orally by M. C. Hersam at the 2019 TechConnect World Innovation Conference, Boston, Massachusetts (6/17/19). +[359] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive 2D materials,” presented orally by M. C. Hersam at the 118th General Assembly of the German Bunsen Society for Physical Chemistry, Jena, Germany (5/31/19). *[358] M. C. Hersam, “Emerging neuromorphic devices for carbon nanotubes and related low-dimensional materials,” presented orally by M. C. Hersam at the 235th Electrochemical Society Meeting, Dallas, Texas (5/28/19). *[357] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive two-dimensional materials,” presented orally by M. C. Hersam at the 235th Electrochemical Society Meeting, Dallas, Texas (5/28/19). *[356] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Argonne National Laboratory 2D Materials Workshop, Argonne, Illinois (5/8/19).

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+[355] M. C. Hersam, “Printable graphene and related 2D nanomaterial inks,” presented orally by M. C. Hersam at the 6th International Forum on Graphene, Shenzhen, China (4/11/19). *[354] M. C. Hersam, “Properties and applications of solution-processed inorganic two-dimensional materials,” presented orally by M. C. Hersam at the 257th American Chemical Society Meeting, Orlando, Florida (4/3/19). *[353] M. C. Hersam, “Controlling and exploiting defects in synthetic two-dimensional materials,” presented orally by M. C. Hersam at the 2019 American Physical Society March Meeting, Boston, Massachusetts (3/5/19). *[352] M. C. Hersam, “Nanostructured graphene-coated cathodes for high-performance lithium-ion batteries,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (11/29/18). *[351] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive 2D materials,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (11/28/18). *[350] M. C. Hersam, “Mixed-dimensional heterostructures as a platform for beyond von Neumann computing,” presented orally by M. C. Hersam at the Nanotechnology-Enabled Beyond-von-Neumann Computing Tutorial Workshop, Adelphi, Maryland (11/13/18). *[349] M. C. Hersam, “Nanostructured graphene-coated cathodes for high-performance lithium-ion batteries,” presented orally by M. C. Hersam at the 14th Lithium Battery Materials and Chemistries Conference, Arlington, Virginia (11/2/18). *[348] M. C. Hersam, “Two-dimensional transition metal dichalcogenide memristors and memtransistors,” presented orally by M. C. Hersam at the Non-Volatile Memory Technology Symposium, Sendai, Japan (10/23/18). *[347] M. C. Hersam, “Molecular engineering of chemically reactive two-dimensional materials,” presented orally by M. C. Hersam at the Frontiers of Molecular Engineering Symposium, Chicago, Illinois (9/28/18). *[346] M. C. Hersam, “Introducing the memtransistor: A potential foundational circuit element for neuromorphic computing,” presented orally by M. C. Hersam at Illinois Ignite, Rosemont, Illinois (9/27/18). +[345] M. C. Hersam, “Printable carbon and related two-dimensional nanomaterial inks for electronic and energy applications,” presented orally by M. C. Hersam at the International Graphene Innovation Conference, Xi’an, China (9/19/18). &[344] M. C. Hersam, “Printable two-dimensional nanomaterial inks for electronic and energy applications,” presented orally by M. C. Hersam at the 256th American Chemical Society Meeting, Boston, Massachusetts (8/19/18).

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*[343] M. C. Hersam, “Nanoelectronic material inks for electronic devices and batteries,” presented orally by M. C. Hersam at Huawei University Days, Schaumburg, Illinois (8/2/18). *[342] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Northwestern University/Tel Aviv University Workshop on Recent Advances in Materials Science and Engineering, Evanston, Illinois (7/17/18). *[341] M. C. Hersam, “Surface and interface engineering of van der Waals heterostructures,” presented orally by M. C. Hersam at the International Conference on Chemical Bonding, Lihue, Hawaii (7/13/18). &[340] M. C. Hersam, “Printable carbon and related two-dimensional nanomaterial inks for electronic and energy applications,” presented orally by M. C. Hersam at the XIV International Conference on Nanostructured Materials, Kowloon, Hong Kong (6/25/18). *[339] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Structures and Materials Intelligence Seminar, McLean, Virginia (6/13/18). +[338] M. C. Hersam, “Surface and interface engineering of van der Waals heterostructures,” presented orally by M. C. Hersam at the Carbon-Rich Molecules to Carbon-Based Materials Conference, Nassau, Bahamas (6/8/18). *[337] M. C. Hersam, “Transition metal dichalcogenide memristors and memtransistors,” presented orally by M. C. Hersam at the 45th International Symposium on Compound Semiconductors, Cambridge, Massachusetts (5/31/18). *[336] M. C. Hersam, “Printable two-dimensional nanomaterial inks for flexible electronics and photonics,” presented orally by M. C. Hersam at the 233rd Electrochemical Society Meeting, Seattle, Washington (5/15/18). *[335] M. C. Hersam, “Nanostructured graphene-coated cathodes for high-performance lithium-ion batteries,” presented orally by M. C. Hersam at the 233rd Electrochemical Society Meeting, Seattle, Washington (5/15/18). *[334] M. C. Hersam, “Self-aligned short-channel heterojunction devices based on carbon nanotubes and related nanoelectronic materials,” presented orally by M. C. Hersam at the 233rd Electrochemical Society Meeting, Seattle, Washington (5/15/18). &[333] M. C. Hersam, “Enhanced nanostructured Li-ion battery cathode materials via conformal graphene dispersion,” presented orally by M. C. Hersam at the International Battery Seminar and Exhibit, Fort Lauderdale, Florida (3/28/18).

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+[332] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures,” presented orally by M. C. Hersam at the International Conference on Nanoscience and Technology, Bangaluru, India (3/21/18). &[331] M. C. Hersam, “Printable two-dimensional nanomaterial inks for electronic and energy applications,” presented orally by M. C. Hersam at the Graphene for US International Conference, New York, New York (2/22/18). *[330] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at HeteroNanoCarb 2017, Benasque, Spain (12/12/17). *[329] M. C. Hersam, “Gate-tunable memristors from monolayer MoS2,” presented orally by M. C. Hersam at the IEEE International Electron Devices Meeting, San Francisco, California (12/4/17). *[328] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (11/30/17). *[327] M. C. Hersam, “Inorganic two-dimensional nanomaterial inks for printed electronics and photonics,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (11/29/17). *[326] M. C. Hersam, “Mixed-dimensional nanomaterial heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the AVS 64th International Symposium, Tampa, Florida (11/1/17). *[325] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the US-EU Workshop on 2D Layered Materials and Devices, Arlington, Virginia (10/23/17). &[324] M. C. Hersam, “Mixed-dimensional nanomaterial heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the 4th Erlangen Symposium on Synthetic Carbon Allotropes, Erlangen, Germany (9/24/17). *[323] M. C. Hersam, “Processing and applications of two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at the International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems, San Francisco, California (8/31/17). &[322] M. C. Hersam, “Chemically functionalized two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 1st European Conference on the Chemistry of Two-Dimensional Materials, Strasbourg, France (8/25/17).

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*[321] M. C. Hersam, “Nanoscale control and characterization of two-dimensional heterostructure interfaces,” presented orally by M. C. Hersam at the 26th International Materials Research Congress, Cancun, Mexico (8/21/17). *[320] M. C. Hersam, “Printable 2D atomic sheets for electronic and energy applications,” presented orally by M. C. Hersam at the 2017 International Workshop on 2D Atomic Sheets, Beltsville, Maryland (7/19/17). *[319] M. C. Hersam, “Printable nanomaterial inks for electronic and energy applications,” presented orally by M. C. Hersam at the 2017 Blavatnik Science Symposium, New York, New York (7/17/17). *[318] M. C. Hersam, “Probing and manipulating defects in two-dimensional materials,” presented orally by M. C. Hersam at the TSRC Workshop on Defect Chemistry and Physics of Low-Dimensional Materials, Telluride, Colorado (7/12/17). &[317] M. C. Hersam, “Emerging security applications for carbon nanotube thin-film complementary circuits,” presented orally by M. C. Hersam at the 18th International Conference on the Science and Application of Nanotubes and Low-Dimensional Materials, Belo Horizonte, Brazil (6/29/17). *[316] M. C. Hersam, “Radiation-hard semiconducting carbon nanotube thin-film complementary circuits,” presented orally by M. C. Hersam at the 231st Electrochemical Society Meeting, New Orleans, Louisiana (5/31/17). *[315] M. C. Hersam, “Processing and applications of monodisperse two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at the 231st Electrochemical Society Meeting, New Orleans, Louisiana (5/31/17). *[314] M. C. Hersam, “Processing and applications of monodisperse two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at the at the 2017 TechConnect World Innovation Conference, National Harbor, Maryland (5/15/17). *[313] M. C. Hersam, “Processing and applications of monodisperse two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at the Materials Research Society Spring Meeting, Phoenix, Arizona (4/20/17). *[312] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 253rd American Chemical Society Meeting, San Francisco, California (4/7/17). *[311] M. C. Hersam, “Solution-based processing and applications of two-dimensional heterostructures,” presented orally by M. C. Hersam at the 2017 American Physical Society March Meeting, New Orleans, Louisiana (3/14/17).

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*[310] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 31st International Winterschool on Electronic Properties of Novel Materials, Kirchberg, Austria (3/8/17). *[309] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Muju International Winter School, Muju Deogyusan Resort, Korea (2/7/17). *[308] M. C. Hersam, “Optoelectronically active two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at SPIE Photonics West, San Francisco, California (1/30/17). *[307] M. C. Hersam, “Industrial-scale solution-processed nanomaterial inks,” presented orally by M. C. Hersam at the Workshop on Nanomaterials Manufacturing for Energy Applications, Atlanta, Georgia (1/18/17). *[306] M. C. Hersam, “Ubiquitous electronics and sensors: Enabling the internet of things,” presented orally by M. C. Hersam at the Law-STEM Alliance & Next Generation Innovation Conference, Chicago, Illinois (10/28/16). &[305] M. C. Hersam, “Solution-processed graphene and related two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at the Graphene Canada International Conference, Montreal, Canada (10/20/16). *[304] M. C. Hersam, “Chemically functionalized two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Raman/AFM-Raman/TERS Workshop, Evanston, Illinois (9/27/16). *[303] M. C. Hersam, “Chemically modified two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Richard P. Van Duyne Symposium, Minneapolis, Minnesota (9/18/16). +[302] M. C. Hersam, “Mixed dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 8th International Conference on Molecular Electronics, Paris, France (8/25/16). +[301] M. C. Hersam, “Solution-processed graphene and related two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at the Graphene Industry Technology Summit Forum, Nanning, China (8/22/16). *[300] M. C. Hersam, “Interfacial engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 25th International Materials Research Congress, Cancun, Mexico (8/15/16). +[299] M. C. Hersam, “Mixed dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 25th International Materials Research Congress, Cancun, Mexico (8/15/16).

91

*[298] M. C. Hersam, “Mixed dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the International Conference on Electronic Materials, Singapore, Singapore (7/7/16). +[297] M. C. Hersam, “Mixed dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 58th Electronic Materials Conference, Newark, Delaware (6/22/16). *[296] M. C. Hersam, “Mixed dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 229th Electrochemical Society Meeting, San Diego, California (6/1/16). *[295] M. C. Hersam, “Chemically modified two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 229th Electrochemical Society Meeting, San Diego, California (6/1/16). *[294] M. C. Hersam, “Stability and reliability of carbon nanotube thin-film circuits,” presented orally by M. C. Hersam at the 229th Electrochemical Society Meeting, San Diego, California (6/1/16). *[293] M. C. Hersam, “Fundamentals and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Argonne National Laboratory 2D Materials Beyond Graphene Workshop, Argonne, Illinois (5/11/16). *[292] M. C. Hersam, “Fundamentals and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Pennsylvania State University Graphene and Beyond Workshop, State College, Pennsylvania (5/10/16). *[291] M. C. Hersam, “Van der Waals heterostructures based on two-dimensional and mixed-dimensional nanomaterials,” presented orally by M. C. Hersam at the European Materials Research Society Spring Meeting, Lille, France (5/4/16). *[290] M. C. Hersam, “Surface engineering of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 251st American Chemical Society National Meeting, San Diego, California (3/16/16). *[289] M. C. Hersam, “Fundamentals and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at KAUST-NSF Workshop on Electronic Materials, KAUST, Saudi Arabia (3/14/16). *[288] M. C. Hersam, “Carbon nanotube thin-film static random access memory,” presented orally by M. C. Hersam at the International Chemical Congress of Pacific Basin Societies, Honolulu, Hawaii (12/18/15). *[287] M. C. Hersam, “Solution processing and device integration at the two-dimensional limit,” presented orally by M. C. Hersam at the International Chemical Congress of Pacific Basin Societies, Honolulu, Hawaii (12/16/15).

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*[286] M. C. Hersam, “Integration challenges and opportunities for two-dimensional materials,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (12/2/15) *[285] M. C. Hersam, “Ubiquitous electronics and sensors: Enabling the internet of things,” presented orally by M. C. Hersam at the World Technology Summit, New York, New York (11/20/15). *[284] M. C. Hersam, “Solution processing and device integration of two-dimensional black phosphorus,” presented orally by M. C. Hersam at the 228th Electrochemical Society Meeting, Phoenix, Arizona (10/14/15). *[283] M. C. Hersam, “Fundamentals and applications of two-dimensional nanomaterial heterostructures,” presented orally by M. C. Hersam at the National Academies Symposium on Novel Materials, Washington, DC (10/7/15). &[282] M. C. Hersam, “Chemically modified two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at China Nano 2015, Beijing, China (9/3/15). +[281] M. C. Hersam, “Integration challenges and opportunities for two-dimensional materials,” presented orally by M. C. Hersam at the Science and Technology of Two-Dimensional Materials Workshop, Orlando, Florida (8/21/15). *[280] M. C. Hersam, “Solution processing and device integration at the two-dimensional limit,” presented orally by M. C. Hersam at the 250th American Chemical Society National Meeting, Boston, Massachusetts (8/17/15). &[279] M. C. Hersam, “Carbon and related nanomaterial heterostructure devices,” presented orally by M. C. Hersam at the Carbonhagen Symposium on Carbon and Related Nanomaterials, Copenhagen, Denmark (8/13/15). &[278] M. C. Hersam, “Nanomaterial heterostructures for electronic and electrochemical applications,” presented orally by M. C. Hersam at the 8th International Conference on Materials for Advanced Technologies, Singapore (7/1/15). *[277] M. C. Hersam, “Beyond carbon nanotube thin-film transistors: Logic circuits, memory, and heterostructures,” presented orally by M. C. Hersam at the 16th International Conference on the Science and Application of Nanotubes, Nagoya, Japan (6/30/15). *[276] M. C. Hersam, “Solution processing and device integration of two-dimensional black phosphorus,” presented orally by M. C. Hersam at the 6th Graphene and 2D Materials Satellite Symposium, Nagoya, Japan (6/28/15). *[275] M. C. Hersam, “Emerging device applications for two-dimensional nanomaterial heterostructures,” presented orally by M. C. Hersam at the 73rd Device Research Conference, Columbus, Ohio (6/23/15).

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*[274] M. C. Hersam, “Production and application of printable carbon nanomaterial inks,” presented orally by M. C. Hersam at the 2015 TechConnect World Innovation Conference, National Harbor, Maryland (6/17/15). *[273] M. C. Hersam, “Anti-ambipolar, gate-tunable p-n heterojunctions,” presented orally by M. C. Hersam at the 227th Electrochemical Society Meeting, Chicago, Illinois (5/25/15). *[272] M. C. Hersam, “VLSI carbon nanotube thin-film circuits,” presented orally by M. C. Hersam at the 227th Electrochemical Society Meeting, Chicago, Illinois (5/25/15). *[271] M. C. Hersam, “Solution processing and device integration at the two-dimensional limit,” presented orally by M. C. Hersam at the European Materials Research Society Spring Meeting, Lille, France (5/13/15). *[270] M. C. Hersam, “Integration challenges and opportunities for two-dimensional materials,” presented orally by M. C. Hersam at the NSF US-EU Workshop on 2D Layered Materials and Devices, Arlington, Virginia (4/23/15). *[269] M. C. Hersam, “Integrating carbon nanomaterials into functional heterostructure devices,” presented orally by M. C. Hersam at the Materials Research Society Spring Meeting, San Francisco, California (4/10/15). *[268] M. C. Hersam, “Chemically modified two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the 249th American Chemical Society National Meeting, Denver, Colorado (3/23/15). *[267] M. C. Hersam, “Carbon nanomaterial heterostructure devices,” presented orally by M. C. Hersam at the 249th American Chemical Society National Meeting, Denver, Colorado (3/22/15). *[266] M. C. Hersam, “Suppressing manganese dissolution form lithium manganate via graphene coatings,” presented orally by M. C. Hersam at the 249th American Chemical Society National Meeting, Denver, Colorado (3/22/15). *[265] M. C. Hersam, “Nanomaterial heterostructures for electronic and energy technologies,” presented orally by M. C. Hersam at the Workshop on Semiconductors, Electronic Materials, Thin Film, and Photonic Materials, Tel Aviv, Israel (2/23/15). *[264] M. C. Hersam, “Integrating monodisperse nanomaterials into heterostructure devices,” presented orally by M. C. Hersam at the Towards Reality in Nanoscale Materials VIII Workshop, Levi, Finland (2/9/15). *[263] M. C. Hersam, “Nanomaterial heterostructures for electronic and energy technologies,” presented orally by M. C. Hersam at the Muju International Winter School, Muju Deogyusan Resort, Korea (1/29/15).

94

*[262] M. C. Hersam, “Nanomaterial inks for roll-to-roll manufacturing of flexible electronics,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (12/3/14). *[261] M. C. Hersam, “Fundamentals and applications of carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the 2014 STLE Tribology Frontiers Conference, Chicago, Illinois (10/29/14). *[260] M. C. Hersam, “Recent advances in methods and substrates for molecular scale chemical imaging,” presented orally by M. C. Hersam at the 10th Research Meeting on Condensed Phase & Interfacial Molecular Science, Potomac, Maryland (10/20/14). *[259] M. C. Hersam, “Integrating multifunctional oxides into monodisperse nanomaterial heterostructures and composites,” presented orally by M. C. Hersam at Materials Science & Technology 2014, Pittsburgh, Pennsylvania (10/15/14). *[258] M. C. Hersam, “Thin-film electronics and optoelectronics based on monodisperse nanomaterial heterostructures,” presented orally by M. C. Hersam at the International Meeting on Information Display 2014, Daegu, Korea (8/28/14). *[257] M. C. Hersam, “Electronics and optoelectronics based on carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the SPIE Nanoscience and Engineering Conference, San Diego, California (8/20/14). *[256] M. C. Hersam, “Integration of carbon nanomaterials into heterostructure devices,” presented orally by M. C. Hersam at the 248th American Chemical Society National Meeting, San Francisco, California (8/13/14). &[255] M. C. Hersam, “Processing and applications of graphene and related nanomaterials,” presented orally by M. C. Hersam at the 248th American Chemical Society National Meeting, San Francisco, California (8/10/14). *[254] M. C. Hersam, “Ambient degradation and passivation of black phosphorus transistors,” presented orally by M. C. Hersam at the Informal Phosphorene Symposium 2014, East Lansing, Michigan (8/5/14). *[253] M. C. Hersam, “Functional nanomaterial heterostructures,” presented orally by M. C. Hersam at the 8th International Workshop on Nanoscale Spectroscopy and Nanotechnology, Chicago, Illinois (7/28/14). *[252] M. C. Hersam, “Functional carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the XII International Conference on Nanostructured Materials, Moscow, Russia (7/14/14).

95

*[251] M. C. Hersam, “Chemically modified graphene heterostructures,” presented orally by M. C. Hersam at the 1st Annual Workshop of the IBS Center for Artificial Low Dimensional Electronic Systems, Pohang, Korea (7/11/14). *[250] M. C. Hersam, “Chemically modified graphene heterostructures,” presented orally by M. C. Hersam at the CIMTEC International Conference on Novel Functional Carbon Nanomaterials, Montecatini, Italy (6/18/14). *[249] M. C. Hersam, “Chemistry and applications of monodisperse carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the 97th Canadian Chemistry Conference and Exhibition, Vancouver, Canada (6/2/14). &[248] M. C. Hersam, “Monodisperse carbon nanomaterial thin film heterostructures,” presented orally by M. C. Hersam at the 2nd Carbon Nanotube Thin Film Applications Symposium, Los Angeles, California (6/1/14). &[247] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the New Diamond and Nano Carbons Conference, Chicago, Illinois (5/26/14). *[246] M. C. Hersam, “Carbon nanotube heterostructure devices,” presented orally by M. C. Hersam at the Electrochemical Society Spring Meeting, Orlando, Florida (5/13/14). *[245] M. C. Hersam, “Chemically functionalized graphene heterostructures,” presented orally by M. C. Hersam at the Materials Research Society Spring Meeting, San Francisco, California (4/23/14). *[244] M. C. Hersam, “Centrifugal size and shape sorting of polyhedral metal nanoparticles,” presented orally by M. C. Hersam at the Materials Research Society Spring Meeting, San Francisco, California (4/22/14). +[243] M. C. Hersam, “Chemically enhanced carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the IEEE-NEMS 2014 Conference, Honolulu, Hawaii (4/16/14). *[242] M. C. Hersam, “Improving biocompatibility of carbon and post-carbon nanomaterials via dispersion chemistry,” presented orally by M. C. Hersam at the 247th American Chemical Society National Meeting, Dallas, Texas (3/16/14). *[241] M. C. Hersam, “Functional carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the TMS Annual Meeting, San Diego, California (2/18/14). *[240] M. C. Hersam, “Large-area chemically modified graphene heterostructures,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (12/4/13).

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*[239] M. C. Hersam, “Processing and applications of monodisperse carbon nanomaterial inks,” presented orally by M. C. Hersam at the 2013 Ceradrop Workshop, Evanston, Illinois (11/13/13). *[238] M. C. Hersam, “Monodisperse carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the 2013 NanoBio Summit, Montgomery, Alabama (10/18/13). *[237] M. C. Hersam, “Nanoscale surface characterization of chemically modified graphene,” presented orally by M. C. Hersam at the 40th Analytical Chemistry Meeting of FACSS 2013, Milwaukee, Wisconsin (10/1/13). *[236] M. C. Hersam, “Tailoring and integrating graphene into device architectures via chemical modification,” presented orally by M. C. Hersam at the 246th American Chemical Society National Meeting and Exposition, Indianapolis, Indiana (9/11/13). *[235] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructure devices,” presented orally by M. C. Hersam at China Nano 2013, Beijing, China (9/6/13). *[234] M. C. Hersam, “Fundamentals and applications of monodisperse carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the International Materials Research Congress, Cancun, Mexico (8/13/13). *[233] M. C. Hersam, “Scanning probe microscopy of energy materials,” presented orally by M. C. Hersam at the Symposium on Atomic Force Microscopy for Energy Applications, College Park, Maryland (8/5/13). *[232] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructure devices,” presented orally by M. C. Hersam at Nano Korea 2013, Seoul, Korea (7/10/13). *[231] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructure devices,” presented orally by M. C. Hersam at the 7th International Conference on Materials for Advanced Technologies, Singapore (7/4/13). *[230] M. C. Hersam, “Monodisperse carbon nanomaterial thin film applications,” presented orally by M. C. Hersam at the 1st Carbon Nanotube Thin Film Applications Symposium, Tallinn, Estonia (6/29/13). *[229] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 7th International Workshop on Metrology, Standardization, and Industrial Quality of Nanotubes, Tallinn, Estonia (6/29/13). *[228] M. C. Hersam, “Scanning probe microscopy of energy materials,” presented orally by M. C. Hersam at the Society for Experimental Mechanics Annual Conference, Lombard, Illinois (6/4/13).

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*[227] M. C. Hersam, “Nanoelectronic properties and applications of chemically functionalized graphene,” presented orally by M. C. Hersam at the 223rd Electrochemical Society Meeting, Toronto, Canada (5/14/13). *[226] M. C. Hersam, “Monodisperse carbon nanomaterials in electronic and energy conversion devices,” presented orally by M. C. Hersam at the 223rd Electrochemical Society Meeting, Toronto, Canada (5/14/13). *[225] M. C. Hersam, “Monodisperse carbon nanomaterials in electronic, optoelectronic, and energy conversion technologies,” presented orally by M. C. Hersam at the 2013 SPIE Defense Security and Sensing Conference, Baltimore, Maryland (5/2/13). *[224] M. C. Hersam, “Nanoelectronic properties and applications of chemically modified graphene,” presented orally by M. C. Hersam at the Graphene 2013 International Conference, Bilbao, Spain (4/25/13). *[223] M. C. Hersam, “Opportunities and challenges for functionalized carbon nanomaterials in device applications,” presented orally by M. C. Hersam at the 245th American Chemical Society National Meeting and Exposition, New Orleans, Louisiana (4/7/13). *[222] M. C. Hersam, “Nanoelectronic properties and applications of chemically functionalized graphene,” presented orally by M. C. Hersam at the 27th International Winterschool on Electronic Properties of Novel Materials, Kirchberg, Austria (3/3/12). *[221] M. C. Hersam, “Monodisperse carbon nanomaterials in electronic, optoelectronic, sensing, and energy conversion technologies,” presented orally by M. C. Hersam at the 2013 SPIE Photonics West Meeting, San Francisco, California (2/4/13). *[220] M. C. Hersam, “Monodisperse carbon nanomaterial coatings and composites in electronic and energy conversion devices,” presented orally by M. C. Hersam at the 37th International Conference and Exposition on Advanced Ceramics and Composites, Daytona Beach, Florida (1/29/13). *[219] M. C. Hersam, “Preparation and applications of chemically functionalized graphene,” presented orally by M. C. Hersam at the JNCASR-NU Indo-US Workshop, Bangalore, India (1/22/13). *[218] M. C. Hersam, “Carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the 4th Annual Nano Monterrey International Forum, Monterrey, Mexico (11/30/12). *[217] M. C. Hersam, “NanoIntegris: A case study in commercializing high performance carbon nanomaterials,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (11/26/12).

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*[216] M. C. Hersam, “NanoIntegris: A case study in commercializing academic research,” presented orally by M. C. Hersam at the Threats to Intellectual Property Conference, Chicago, Illinois (11/14/12). *[215] M. C. Hersam, “Generating, probing, and manipulating excitons in carbon-based nanomaterials,” presented orally by M. C. Hersam at the Nanoelectronics Research Initiative Annual Meeting, Gaithersburg, Maryland (11/7/12). *[214] M. C. Hersam, “Molecularly resolved chemical functionalization of graphene,” presented orally by M. C. Hersam at the AVS 59th International Symposium, Tampa, Florida (10/31/12). *[213] M. Steiner and M. C. Hersam, “Electronics and optoelectronics with semiconducting carbon nanotube arrays,” presented orally by M. C. Hersam at the AVS 59th International Symposium, Tampa, Florida (10/30/12). *[212] M. C. Hersam, “Scanning probe microscopy of electronic and energy materials,” presented orally by M. C. Hersam at the 3rd International Workshop on Nanoscale Imaging for Energy Applications, Oak Ridge, Tennessee (9/12/12). *[211] M. C. Hersam, “Isolating monodisperse carbon nanotubes via density gradient ultracentrifugation,” presented orally by M. C. Hersam at the Carbon Nanotube Digital Electronics Workshop, Gaithersburg, Maryland (9/6/12). *[210] M. C. Hersam, “Infrared optoelectronic properties and applications of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 11th International Conference on Infrared Optoelectronics: Materials and Devices, Evanston, Illinois (9/5/12). *[209] M. C. Hersam, “Preparation and application of chemically functionalized graphene,” presented orally by M. C. Hersam at the 11th International Conference on Nanostructured Materials, Rhodes, Greece (8/27/12). *[208] M. C. Hersam, “Preparation and application of chemically functionalized graphene,” presented orally by M. C. Hersam at the 244th American Chemical Society National Meeting and Exposition, Philadelphia, Pennsylvania (8/19/12). *[207] M. C. Hersam, “Chemically enhanced carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the International Conference of Young Researchers on Advanced Materials, Singapore (7/6/12). *[206] M. C. Hersam, “Opportunities and challenges for carbon nanomaterials in electronic and photovoltaic devices,” presented orally by M. C. Hersam at the 13th International Conference on the Science and Application of Nanotubes, Brisbane, Australia (6/28/12). *[205] M. C. Hersam, “Nanotechnology long-term impacts and research directions,” presented orally by M. C. Hersam at the Queensland International Fellows Award Ceremony, Brisbane, Australia (6/27/12).

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*[204] M. C. Hersam, “Functional inks based on monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 13th International Conference on the Science and Application of Nanotubes, Brisbane, Australia (6/27/12). *[203] M. C. Hersam, “Functional inks based on monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 9th Korea-U.S. Nanoforum, Seoul, Korea (6/4/12). *[202] M. C. Hersam, “Probing nanoelectronic materials and devices with conductive atomic force microscopy,” presented orally by M. C. Hersam at the Argonne National Laboratory Center for Nanoscale Materials Users Meeting, Argonne, Illinois (5/10/12). *[201] M. C. Hersam, “Preparation and application of chemically functionalized graphene,” presented orally by M. C. Hersam at the 221st Electrochemical Society Meeting, Seattle, Washington (5/8/12). *[200] M. C. Hersam, “Functional inks based on monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 221st Electrochemical Society Meeting, Seattle, Washington (5/8/12). *[199] M. C. Hersam, “Preparation and application of chemically functionalized graphene,” presented orally by M. C. Hersam at the Graphene 2012 International Conference, Brussels, Belgium (4/11/12). *[198] M. C. Hersam, “Functional inks based on monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the Materials Research Society Spring Meeting, San Francisco, California (4/9/12). *[197] M. C. Hersam, “Atomically precise functionalization and characterization of graphene via ultra-high vacuum scanning tunneling microscopy,” presented orally by M. C. Hersam at the 2012 NUANCE-Bruker International Symposium, Evanston, Illinois (4/5/12). *[196] M. C. Hersam, “Chemically enhanced carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the 243rd American Chemical Society National Meeting, San Diego, California (3/27/12). *[195] M. C. Hersam, “Chemically enhanced carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the International Conference on Advanced Materials and Devices, Jeju, Korea (12/9/11). *[194] M. C. Hersam, “Atomically precise chemical functionalization of graphene,” presented orally by M. C. Hersam at the TACT International Thin Films Conference, Kenting, Taiwan (11/22/11).

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*[193] M. C. Hersam, “Generating, probing, and manipulating excitons in carbon-based nanomaterials,” presented orally by M. C. Hersam at the Nanoelectronics Research Initiative Annual Meeting, Rockville, Maryland (10/25/11). *[192] M. C. Hersam, “Functional inks based on monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the FACSS Society for Applied Spectroscopy National Meeting, Reno, Nevada (10/4/11). *[191] M. C. Hersam, “Nanotechnology long-term impacts and research directions,” presented orally by M. C. Hersam at the FBI Industrial Security Advisory Council Meeting, Chicago, Illinois (9/22/11). *,+ [190] M. C. Hersam, “Chemically refined carbon nanoelectronic materials,” presented orally by M. C. Hersam at the AVS Prairie Chapter Symposium, Evanston, Illinois (9/1/11). *[189] M. C. Hersam, “Molecular-scale tailoring of graphene surface chemistry via organic functionalization,” presented orally by M. C. Hersam at the NT11 Graphene Technology Satellite Workshop, Cambridge, United Kingdom (7/15/11). *[188] M. C. Hersam, “Probing photon-matter and electron-matter interactions at the molecular scale,” presented orally by M. C. Hersam at the 7th Annual Meeting on Condensed Phase and Interfacial Molecular Science, Baltimore, Maryland (6/13/11). *[187] M. C. Hersam, “Molecular-scale tailoring of graphene surface chemistry via organic functionalization,” presented orally by M. C. Hersam at the Brookhaven National Laboratory Epitaxial Graphene Workshop, Upton, New York (5/25/11). *[186] M. C. Hersam, “Molecular-scale tailoring of graphene surface chemistry via organic functionalization,” presented orally by M. C. Hersam at the 219th Electrochemical Society Meeting, Montreal, Canada (5/3/11). *[185] M. C. Hersam, “Fundamentals and applications of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 219th Electrochemical Society Meeting, Montreal, Canada (5/2/11). *[184] M. C. Hersam, “Molecular-scale tailoring of graphene surface chemistry via organic functionalization,” presented orally by M. C. Hersam at the 2011 Materials Research Society Spring Meeting, San Francisco, California (4/27/11). *[183] M. C. Hersam, “Fundamentals and applications of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 2011 Materials Research Society Spring Meeting, San Francisco, California (4/26/11). *[182] M. C. Hersam, “Chemical methods for enhancing the performance of carbon nanoelectronic materials,” presented orally by M. C. Hersam at the Villa Conference on Interactions among Nanostructures, Las Vegas, Nevada (4/21/11).

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*[181] M. C. Hersam, “Characterization and opportunities for organically functionalized carbon nanomaterials,” presented orally by M. C. Hersam at the US-India-Israel Workshop on Nanoscale Phenomena in Soft and Hybrid Matter, Evanston, Illinois (3/23/11). *[180] M. C. Hersam, “Fundamentals and applications of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the 2011 American Physical Society March Meeting, Dallas, Texas (3/21/11). *[179] M. C. Hersam, “Nanotechnology long-term impacts and research directions,” presented orally by M. C. Hersam at the National Center for Learning and Teaching Nanoscale Community Planning Workshop, Schaumburg, Illinois (3/12/11). *[178] M. C. Hersam, “Self-assembled dielectrics on graphene,” presented orally by M. C. Hersam at the PREM + MRSEC Joint Meeting, Humacao, Puerto Rico (3/10/11). *[177] M. C. Hersam, “Fundamentals and applications of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the 25th International Winterschool on Electronic Properties of Novel Materials, Kirchberg, Austria (2/28/11). *[176] M. C. Hersam, “Chemically enhanced carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the International Chemical Congress of Pacific Basin Societies, Honolulu, Hawaii (12/18/10). *[175] M. C. Hersam, “Nanotechnology long-term impacts and research directions,” presented orally by M. C. Hersam at the Nanoscale Science and Engineering Grantees Meeting, Arlington, Virginia (12/6/10). *,+ [174] M. C. Hersam, “Fundamentals and applications of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the International Conference on NanoScience and NanoTechnology, Oryonghall, GIST, Korea (11/8/10). *,+[173] M. C. Hersam, “Fundamentals and applications of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the Mexican Physical Society Annual Meeting, Boca del Río, Veracruz, Mexico (10/28/10). *[172] M. C. Hersam, “Generating, probing, and manipulating excitons in carbon-based nanomaterials,” presented orally by M. C. Hersam at the Nanoelectronics Research Initiative Annual Meeting, Gaithersburg, Maryland (10/26/10). *[171] M. C. Hersam, “Chemically tailoring graphene via organic self-assembled monolayers,” presented orally by M. C. Hersam at the 57th AVS International Symposium, Albuquerque, New Mexico (10/19/10).

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*[170] M. C. Hersam, “Chemically enhanced carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the NSF-MEXT US-Japan Young Scientists Symposium, Evanston, Illinois (10/6/10). *[169] M. C. Hersam, “Integrated nanopatterning and detection technologies,” presented orally by M. C. Hersam at the NSF-MEXT US-Japan Young Scientists Symposium, Evanston, Illinois (10/6/10). *[168] M. C. Hersam, “High-performance nanomaterials and other emerging areas,” presented orally by M. C. Hersam at the Nano2 Closing Workshop, Arlington, Virginia (9/30/10). *[167] M. C. Hersam, “Introduction to the international study of the long-term impacts and future opportunities for nanoscale science and engineering,” presented orally by M. C. Hersam at the Nano2 Closing Workshop, Arlington, Virginia (9/30/10). *[166] M. C. Hersam, “Fundamentals and applications of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the 4th NIST Carbon Nanotube Workshop, Gaithersburg, Maryland (9/23/10). *[165] M. C. Hersam, “Molecular-scale tailoring of graphene surface chemistry via organic functionalization,” presented orally by M. C. Hersam at the Workshop on Carbon Based Electronics, Albany, New York (9/22/10). *[164] M. C. Hersam, “Ultra-high vacuum processing and characterization of chemically functionalized graphene,” presented orally by M. C. Hersam at the 18th International Vacuum Congress and International Conference on Nanoscience and Technology, Beijing, China (8/24/10). *[163] M. C. Hersam, “Enhancing carbon-based nanomaterials and devices via chemical processing,” presented orally by M. C. Hersam at the Center for Integrated Nanotechnologies Users Conference, Albuquerque, New Mexico (8/11/10). *[162] M. C. Hersam, “Introduction to the international study of the long-term impacts and future opportunities for nanoscale science and engineering,” presented orally by M. C. Hersam at the Nano2 Singapore Workshop, Singapore (7/29/10). *[161] M. C. Hersam, “Introduction to the international study of the long-term impacts and future opportunities for nanoscale science and engineering,” presented orally by M. C. Hersam at the Nano2 Japan Workshop, Tsukuba, Japan (7/26/10). *[160] M. C. Hersam, “Research needs and opportunities for nanoscience and nanotechnology,” presented orally by M. C. Hersam at the Nano2 European Union Workshop, Hamburg, Germany (6/23/10).

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*[159] M. C. Hersam, “Preparation, characterization, and application of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the 7th Annual Conference on the Foundations of Nanoscience, Snowbird, Utah (4/29/10). *[158] M. C. Hersam, “Ultra-high vacuum processing and characterization of chemically functionalized graphene,” presented orally by M. C. Hersam at the 217th Electrochemical Society Meeting, Vancouver, Canada (4/27/10). *[157] M. C. Hersam, “Preparation, characterization, and application of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the 217th Electrochemical Society Meeting, Vancouver, Canada (4/26/10). *[156] M. C. Hersam, “Preparation, characterization, and application of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the 2010 ChemOnTubes Conference, Arcachon, France (4/12/10). *[155] M. C. Hersam, “Chemically enhanced carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the 2010 Materials Research Society Spring Meeting, San Francisco, California (4/7/10). *[154] M. C. Hersam, “Introduction to the international study of the long-term impacts and future opportunities for nanoscale science and engineering,” presented orally by M. C. Hersam at the Nano2 North American Workshop, Evanston, Illinois (3/9/10). *[153] M. C. Hersam, “Chemically tailored carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the 2009 Materials Research Society Fall Meeting, Boston, Massachusetts (12/1/09). *[152] M. C. Hersam, “Introduction to nanometer-scale science and technology,” presented orally by M. C. Hersam at the NanoBusiness Alliance Conference, Chicago, Illinois (9/8/09). *[151] M. C. Hersam, “Optical and electronic properties of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the 2009 SPIE Optics and Photonics Conference, San Diego, California (8/5/09). *[150] M. C. Hersam, “Chemically tailored carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the 9th IEEE International Conference on Nanotechnology, Genoa, Italy (7/28/09). *[149] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the 10th International Conference on the Science and Application of Nanotubes, Beijing, China (6/23/09). *[148] M. C. Hersam, “Processing and properties of monodisperse single-walled and double-walled carbon nanotubes,” presented orally by M. C. Hersam at the 215th Electrochemical Society Meeting, San Francisco, California (5/26/09).

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*[147] M. C. Hersam, “Processing and properties of monodisperse carbon-based nanoelectronic materials,” presented orally by M. C. Hersam at the 38th American Chemical Society Great Lakes Regional Meeting, Lincolnshire, Illinois (5/14/09). *[146] M. C. Hersam, “Self-assembled monolayers on graphene surfaces: Prospects for graphene-based molecular electronics,” presented orally by M. C. Hersam at the 2009 Materials Research Society Spring Meeting, San Francisco, California (4/13/09). *[145] M. C. Hersam, “Chemically tailored carbon-based nanoelectronic materials,” presented orally by M. C. Hersam at the 237th American Chemical Society National Meeting, Salt Lake City, Utah (3/23/09). *[144] M. C. Hersam, “Nanomaterials for electronics, sensing, and alternative energy,” presented orally by M. C. Hersam at the Illinois Biotechnology Industry Organization Exposition, Chicago, Illinois (3/18/09). *[143] M. C. Hersam, “Monodisperse colloidal suspensions of surfactant-encapsulated carbon nanotubes,” presented orally by M. C. Hersam at the Colloid and Surfactant Science Basic Research Workshop, Napa, California (3/12/09). *[142] M. C. Hersam, “Preparation, characterization, and application of monodisperse single-walled and double-walled carbon nanotubes,” presented orally by M. C. Hersam at the 23rd International Winterschool on Electronic Properties of Novel Materials, Kirchberg, Austria (3/8/09). *[141] M. C. Hersam, “Preparation and characterization of high purity single-walled and double-walled carbon nanotubes,” presented orally by M. C. Hersam at the 2008 Materials Research Society Fall Meeting, Boston, Massachusetts (11/30/08). *[140] M. C. Hersam, “Alternative energy opportunities for high purity carbon nanomaterials,” presented orally by M. C. Hersam at the Joint India-US Workshop on Scalable Nanomaterials for Enhanced Energy Transport, Conversion, and Efficiency, Bangalore, India (8/19/08). *[139] M. C. Hersam, “Size-dependent properties: Opportunities and obstacles for nanomaterials,” presented orally by M. C. Hersam at the Symposium Toward a Strategic Vision for Chemical and Biological Defense, Atlanta, Georgia (8/7/08). *[138] M. C. Hersam, “Progress towards monodisperse carbon nanotubes,” presented orally by M. C. Hersam at the Virtual Conference on Nanoscale Science and Technology, Fayetteville, Arkansas (7/25/08). *[137] M. C. Hersam, “High purity carbon-based nanoelectronic materials,” presented orally by M. C. Hersam at the Gordon Conference on Nanostructure Fabrication, Tilton, New Hampshire (7/16/08).

105

*[136] M. C. Hersam, “Preparation and characterization of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the 2nd International Workshop on Metrology, Standardization, and Industrial Quality of Nanotubes, Montpellier, France (6/28/08). *[135] M. C. Hersam, “Probing the structure and properties of individual molecules on silicon surfaces,” presented orally by M. C. Hersam at the 52nd International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication, Portland, Oregon (5/30/08). *[134] M. C. Hersam, “Tuning the electrical and optical properties of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the 213th Electrochemical Society Meeting, Phoenix, Arizona (5/19/08). *[133] M. C. Hersam, “Hybrid organic-inorganic nanoelectronic materials,” presented orally by M. C. Hersam at the NU-ANL-JNC Workshop on Advanced Materials, Evanston, Illinois (3/31/08). *[132] M. C. Hersam, “Recent developments and applications of chirality-resolved single-walled carbon nanotubes,” presented orally by M. C. Hersam at the Materials Research Society Spring Meeting, Boston, Massachusetts (3/27/08). *[131] M. C. Hersam, “Probing and manipulating surface chemistry with scanning probe microscopy,” presented orally by M. C. Hersam at the Army Research Office Organic and Inorganic Chemistry Workshop, Boston, Massachusetts (3/19/08). *[130] M. C. Hersam, “Preparation, characterization, and applications of monodisperse single-walled carbon nanotubes,” presented orally by M. C. Hersam at the 22nd International Winterschool on Electronic Properties of Novel Materials, Kirchberg, Austria (3/6/08). *[129] M. C. Hersam, “Tuning the electrical and optical properties of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the Yonsei Global Engineering Symposium, Seoul, Korea (2/14/08). *[128] M. C. Hersam, “Chirality-resolved single-walled carbon nanotubes: Processing, characterization, and applications,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (11/29/07). *[127] M. C. Hersam, “Separating carbon nanotubes by their physical and electronic structure using density gradient ultracentrifugation,” presented orally by M. C. Hersam at the FACSS Society for Applied Spectroscopy National Meeting, Memphis, Tennessee (10/18/07). *[126] M. C. Hersam, “Multi-functional carbon-based nanoelectronic materials,” presented orally by M. C. Hersam at the Molecular Foundry Users Meeting, Berkeley, California (10/5/07). *[125] M. C. Hersam, “Sorting single-walled carbon nanotubes by their physical and electronic structure using density differentiation,” presented orally by M. C. Hersam at the 3rd NASA-NIST Workshop on Nanotube Measurements, Gaithersburg, Maryland (9/26/07).

106

*[124] M. C. Hersam, “Submolecular resolution characterization of organically functionalized silicon surfaces,” presented orally by M. C. Hersam at the Molecular Conduction and Sensing Workshop, West Lafayette, Indiana (7/18/07). *[123] M. C. Hersam, “Advanced processing of carbon nanotubes,” presented orally by M. C. Hersam at the National Science Foundation Summer Institute on Nano Mechanics and Materials, Evanston, Illinois (7/9/07). *[122] M. C. Hersam, “Introduction to carbon nanotubes,” presented orally by M. C. Hersam at the National Science Foundation Summer Institute on Nano Mechanics and Materials, Evanston, Illinois (7/9/07). *[121] M. C. Hersam, “Introduction to scanning probe lithography,” presented orally by M. C. Hersam at the National Science Foundation Summer Institute on Nano Mechanics and Materials, Evanston, Illinois (7/9/07). *[120] M. C. Hersam, “Introduction to scanning probe microscopy,” presented orally by M. C. Hersam at the National Science Foundation Summer Institute on Nano Mechanics and Materials, Evanston, Illinois (7/9/07). *[119] M. C. Hersam, “Introduction to lithography,” presented orally by M. C. Hersam at the National Science Foundation Summer Institute on Nano Mechanics and Materials, Evanston, Illinois (7/9/07). *[118] M. C. Hersam, “Nanoelectronic and nanophotonic materials and devices,” presented as a poster by M. C. Hersam at the Coalition for National Science Funding Exhibition, Washington, DC (6/26/07). *[117] M. C. Hersam, “Monodisperse single-walled carbon nanotubes prepared by density gradient ultracentrifugation,” presented orally by M. C. Hersam at the European Materials Research Society Spring Meeting, Strasbourg, France (5/30/07). *[116] M. C. Hersam, “Overview of the International Institute for Nanotechnology,” presented orally by M. C. Hersam at the Northrop Grumman Annual Design Automation Summit, Rolling Meadows, Illinois (5/22/07). *[115] M. C. Hersam, “Separations of carbon nanotubes,” presented orally by M. C. Hersam at the Oklahoma EPSCoR Annual State Conference, Stillwater, Oklahoma (5/17/07). *[114] M. C. Hersam, “Hybrid organic/inorganic nanoelectronic materials: Characterization, processing, and applications,” presented orally by M. C. Hersam at the Center for Nanoscale Materials Workshop on Nanoelectronics, Argonne, Illinois (5/10/07).

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*[113] M. C. Hersam, “Isolating monodisperse single-walled carbon nanotubes via density gradient ultracentrifugation,” presented orally by M. C. Hersam at the 211th Electrochemical Society Meeting, Chicago, Illinois (5/7/07). *[112] M. C. Hersam, “IsoNanotubes: Uniform, sorted single-walled carbon nanotubes,” presented orally by M. C. Hersam at the 6th Annual NanoBusiness Alliance Conference, New York City, New York (4/17/07). *[111] M. C. Hersam, “Sorting single-walled carbon nanotubes by their electronic structure using density gradient ultracentrifugation,” presented orally by M. C. Hersam at the Materials Research Society Spring Meeting, San Francisco, California (4/12/07). *[110] M. C. Hersam, “Purification and optical properties of biofunctionalized carbon nanotubes: Implications for multi-analyte sensing,” presented orally by M. C. Hersam at the SPIE Photonics West Meeting, San Jose, California (1/25/07). *[109] M. C. Hersam, “Introduction to nanometer-scale science and technology,” presented orally by M. C. Hersam at the American Society for Mechanical Engineers Chicago Chapter Meeting, Evanston, Illinois (1/9/07). *[108] M. C. Hersam, “Probing molecular electronics with scanning probe microscopy,” presented orally by M. C. Hersam at the Pan-American Advanced Studies Institute Program on Nano and Biotechnology, Bariloche, Argentina (11/20/06). *[107] M. C. Hersam, “Nanoelectronics: Device physics and fabrication technology,” presented orally by M. C. Hersam at the Pan-American Advanced Studies Institute Program on Nano and Biotechnology, Bariloche, Argentina (11/20/06). *[106] M. C. Hersam, “Biofunctionalized single-walled carbon nanotubes: Purification, properties, and devices,” presented orally by M. C. Hersam at the AVS 53rd International Symposium, San Francisco, California (11/15/06). *[105] M. C. Hersam, “Electronic and optical devices based on purified biofunctionalized carbon nanotubes,” presented orally by M. C. Hersam at the 210th Meeting of the Electrochemical Society, Cancun, Mexico (10/31/06). *[104] M. C. Hersam, “Functionalized carbon nanotubes: Purification, characterization, and applications,” presented orally by M. C. Hersam at the 2006 International Institute for Nanotechnology Symposium, Evanston, Illinois (10/11/06). *[103] M. C. Hersam, “Purification and optical properties of biofunctionalized carbon nanotubes,” presented orally by M. C. Hersam at the ASME International Conference on Manufacturing Science and Technology, Ypsilanti, Michigan (10/10/06). *[102] M. C. Hersam, “Electrical contacts at the nanometer scale,” presented orally by M. C. Hersam at the 52nd IEEE Holm Symposium, Montreal, Canada (9/27/06).

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*[101] M. C. Hersam, “Probing the dynamics of individual molecules on silicon surfaces with ultra-high vacuum scanning tunneling microscopy,” presented orally by M. C. Hersam at the ACS Fall Meeting, San Francisco, California (9/11/06). *[100] M. C. Hersam, “Probing molecular electronics with scanning probe microscopy,” presented orally by M. C. Hersam at the National Science Foundation Summer Institute on Micro and Nano Devices with Applications to Biology and Nanoelectronics, Evanston, Illinois (8/10/06). *[99] M. C. Hersam, “Nanoelectronics: Device physics and fabrication technology,” presented orally by M. C. Hersam at the National Science Foundation Summer Institute on Micro and Nano Devices with Applications to Biology and Nanoelectronics, Evanston, Illinois (8/10/06). *[98] M. C. Hersam, “Ultra-high vacuum scanning tunneling microscopy studies of single molecules on semiconductor surfaces,” presented orally by M. C. Hersam at the International Conference on Nanoscience and Technology, Basel, Switzerland (8/2/06). *[97] M. C. Hersam, “Assessing the prospects and limitations of silicon-based molecular electronics with ultra-high vacuum scanning tunneling microscopy,” presented orally by M. C. Hersam at the Molecular Conductivity and Sensor Workshop, Charlottesville, Virginia (7/27/06). *[96] M. C. Hersam, “Introduction to nanoelectronics,” presented orally by M. C. Hersam at the ASME Nano Training Bootcamp, St. Paul, Minnesota (7/13/06). *[95] M. C. Hersam, “Nanomaterials for biomedical sensing,” presented orally by M. C. Hersam at the Symposium on Bionanotechnology for Medical Applications, Chicago, Illinois (5/8/06). *[94] M. C. Hersam, “Probing the performance and reliability of silicon-based molecular electronic devices with ultra-high vacuum scanning tunneling microscopy,” presented orally by M. C. Hersam at the 3rd Annual Foundations of Nanoscience Conference, Snowbird, Utah (4/24/06). *[93] M. C. Hersam, “Atomic resolution patterning of organosilicon heteromolecular nanostructures using feedback controlled lithography,” presented orally by M. C. Hersam at the ACS Spring Meeting, Atlanta, Georgia (3/26/06). *[92] M. C. Hersam and M. E. Fine, “The ever changing materials science and engineering curriculum,” presented orally by M. C. Hersam at the TMS Annual Meeting, San Antonio, Texas (3/14/06). *[91] M. C. Hersam, “Molecular-scale patterning and characterization of organic structures on silicon,” presented orally by M. C. Hersam at the Joint International Conference on New Phenomena in Mesoscopic Systems and Surfaces and Interfaces of Mesoscopic Devices, Maui, Hawaii (12/2/05).

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*[90] M. C. Hersam, “Probing silicon-molecule junctions with scanning tunneling microscopy,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetts (11/29/05). *[89] M. C. Hersam, “Directed assembly and characterization of organosilicon nanostructures using scanning tunneling microscopy,” presented orally by M. C. Hersam at the International Symposium on Surface Science and Nanotechnology, Saitama, Japan (11/16/05). *[88] M. C. Hersam, “Nanoelectronics: Device physics and fabrication technology,” presented orally by M. C. Hersam at the NanoCommerce/SEMI NanoForum, Chicago, Illinois (10/31/05). *[87] M. C. Hersam, “Hybrid organic/inorganic materials at the nanometer scale,” presented orally by M. C. Hersam at the Golden Jubilee of Materials Science and Engineering, Evanston, Illinois (10/28/05). *[86] M. C. Hersam, “Separation of single-walled carbon nanotubes by diameter using density gradient centrifugation,” presented orally by M. C. Hersam at the FACSS 51st International Conference on Analytical Sciences and Spectroscopy, Quebec City, Canada (10/10/05). *[85] M. C. Hersam, “Purification and optical properties of biofunctionalized carbon nanotubes,” presented orally by M. C. Hersam at the Materials Science and Technology 2005 Conference, Pittsburgh, Pennsylvania (9/28/05). *[84] M. C. Hersam, “Probing single molecule charge transport on silicon surfaces using scanning tunneling microscopy,” presented orally by M. C. Hersam at the Bat Sheva Seminar on Electron Transport in Molecular Junctions, Mizpe Hayamim, Israel (9/18/05). *[83] M. C. Hersam, “Observing and manipulating single molecule motion using scanning tunneling microscopy,” presented orally by M. C. Hersam at the 230th American Chemical Society National Meeting, Washington, DC (8/29/05). *[82] M. C. Hersam, “Introduction to nanoscale science and technology,” presented orally by M. C. Hersam at the Faculty Workshop on Teaching Nanoscale Science and Engineering Concepts, Evanston, Illinois (8/15/05). *[81] M. C. Hersam, “Overview of Nanotechnology Research at Northwestern University,” presented orally by M. C. Hersam at the International Materials Research and Nanotechnology Workshop, Khon Kaen, Thailand (8/8/05). *[80] M. C. Hersam, “Single molecule sensing, characterization, and actuation,” presented orally by M. C. Hersam at the International Materials Research and Nanotechnology Workshop, Khon Kaen, Thailand (8/8/05). *[79] M. C. Hersam, “Probing silicon-based molecular electronics with scanning tunneling microscopy,” presented orally by M. C. Hersam at the Molecular Conduction and Sensing Workshop, West Lafayette, Indiana (7/29/05).

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[78] M. C. Hersam, “Characterizing charge transport in molecule-silicon junctions with scanning tunneling microscopy,” presented as a poster by M. C. Hersam at the Gordon Research Conference on the Chemistry of Electronic Materials, New London, Connecticut (7/19/05). [77] M. C. Hersam, “Purification and optical properties of isolated and biofunctionalized carbon nanotubes,” presented as a poster by M. C. Hersam at the Gordon Research Conference on the Chemistry of Electronic Materials, New London, Connecticut (7/18/05). *[76] M. C. Hersam, “Introduction to Nanoelectronics,” presented orally by M. C. Hersam at the ASME Nano Training Bootcamp, Washington, D.C. (7/14/05). *[75] M. C. Hersam, “Introduction to nanometer scale science and technology,” presented orally by M. C. Hersam at the American Institute of Chemical Engineering Chicago Section Symposium, Chicago, Illinois (4/20/05). *[74] M. C. Hersam, “Probing charge transport through individual molecules on silicon surfaces,” presented orally by M. C. Hersam at the American Physical Society March Meeting, Los Angeles, California (3/21/05). *[73] M. C. Hersam, “Atomically precise fabrication and characterization of organosilicon nanostructures,” presented orally by M. C. Hersam at the International Symposium on Frontier in Materials Design, Synthesis, and Measurements, Awaji, Japan (3/13/05). *[72] M. C. Hersam, “Nanopatterning soft materials on silicon surfaces down to the single molecule level,” presented orally by M. C. Hersam at the NSF/MEXT US-Japan Young Scientists Symposium on Bionanotechnology, Chicago, Illinois (3/8/05). *[71] M. C. Hersam, “Characterization and manipulation of single molecules on surfaces with scanning probe microscopy,” presented orally by M. C. Hersam at the Bioinspired Nanoscience and Molecular Machines PASI Workshop, Bariloche, Argentina (3/1/05). *[70] M. C. Hersam, “Introduction to scanning probe microscopy,” presented orally by M. C. Hersam at the Bioinspired Nanoscience and Molecular Machines PASI Workshop, Bariloche, Argentina (3/1/05). *[69] M. C. Hersam, “Molecular structures on silicon surface,” presented orally by M. C. Hersam at the 32nd Conference on the Physics and Chemistry of Semiconductor Interfaces, Bozeman, Montana (1/25/05). [68] M. C. Hersam, “Single molecule sensing, characterization, and actuation,” presented as a poster by M. C. Hersam at the National Academies Keck Future Initiatives Designing Nanostructures Conference, Irvine, California (11/20/04).

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*[67] M. C. Hersam and T. J. Marks, “Nano Optoelectronics,” presented orally by M. C. Hersam and T. J. Marks at the NASA University Research Engineering and Technology Institutes Partnering Workshop, College Park, Maryland (10/14/04). *[66] M. C. Hersam, “Overview of Nanotechnology at Northwestern University,” presented orally by M. C. Hersam at NanoCommerce 2004, Chicago, Illinois (10/6/04). *[65] M. C. Hersam, “Yoctomolar surface chemistry and biology,” presented orally by M. C. Hersam at the 13th Annual Beckman Young Investigators Symposium, Irvine, California (8/28/04). *[64] M. C. Hersam, “Probing molecular conduction with scanning probe microscopy,” presented orally by M. C. Hersam at the 2nd Workshop on Molecular Conduction, Evanston, Illinois (7/8/04). *[63] M. C. Hersam, “Introduction to Nanoelectronics,” presented orally by M. C. Hersam at the ASME Nano Training Bootcamp, Evanston, Illinois (6/30/04). *[62] M. C. Hersam, “Characterization of silicon-based molecular resonant tunneling diodes with scanning tunneling microscopy,” presented orally by M. C. Hersam at the TMS Joint Device Research Conference and Electronic Materials Conference Invited Session on Molecular Electronics and Carbon Nanotubes, Notre Dame, Indiana (6/23/04). *[61] M. C. Hersam, “Single molecule electronics on silicon,” presented orally by M. C. Hersam at the 2004 Materials Research Society Spring Meeting, San Francisco, California (4/14/04). *[60] M. C. Hersam, “Silicon-based Molecular Electronics,” presented orally by M. C. Hersam at the Nanoengineering Domain Dinner, Evanston, Illinois (3/18/04). *[59] M. C. Hersam, “Stimulated emission of infrared radiation from single-walled carbon nanotubes,” presented orally by M. C. Hersam at the SPIE Photonics West Meeting, San Jose, California (1/29/04). *[58] M. C. Hersam, “Probing charge transport through individual molecules on degenerately doped silicon surfaces,” presented orally by M. C. Hersam at the 34th Winter Colloquium on the Physics of Quantum Electronics, Snowbird, Utah (1/6/04). *[57] M. C. Hersam, “Nanoscale electrical and optical functionality in individual organic molecules and carbon nanotubes,” presented orally by M. C. Hersam at the France-USA Workshop on Molecular-Scale Electronics, Paris, France (12/18/03). *[56] M. C. Hersam, “Silicon-based Molecular Electronics,” presented orally by M. C. Hersam at the 15th Annual Beckman Frontiers of Science Symposium, National Academy of Sciences, Irvine, California (11/8/03).

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*[55] M. C. Hersam, “Semiconductor-based Molecular Electronics,” presented orally by M. C. Hersam at the NASA Institute for Nanoelectronics and Computing Annual Meeting, NASA-Ames Research Center, Moffett Field, California (10/27/03). *[54] M. C. Hersam, “Education and training issues in converging technologies,” presented orally by M. C. Hersam at the National Science Foundation Workshop on Converging Technologies, Washington, D.C. (9/22/03). [53] M. C. Hersam, “Electrical and optical properties of nanostructures down to the single molecule level,” presented as a poster by M. C. Hersam at the Arnold and Mabel Beckman 12th Annual Young Investigators Symposium, Irvine, California (8/22/03). [52] N. P. Guisinger, R. Basu, A. S. Baluch, and M. C. Hersam, “Room temperature negative differential resistance measured through individual molecules on silicon,” presented orally by M. C. Hersam at the Third IEEE Conference on Nanotechnology, San Francisco, California (8/12/03). *[51] M. C. Hersam, “Probing Charge Transport through Molecule-Semiconductor Junctions with Scanning Tunneling Microscopy,” presented orally by M. C. Hersam at the 2003 Workshop on Molecular Conduction, West Lafayette, Indiana (7/10/03). *[50] M. C. Hersam, “Introduction to Nanoelectronics,” presented orally by M. C. Hersam at the ASME Nano Training Bootcamp, Evanston, Illinois (7/9/03). *[49] M. C. Hersam, “Northwestern University Institute for Nanotechnology,” presented orally by M. C. Hersam at the 12th Users Meeting for the Advanced Photon Source, Argonne, Illinois (4/29/03). *[48] M. C. Hersam, “Nanopatterning and high sensitivity biodetection,” presented orally by M. C. Hersam at the American Physical Society March Meeting, Austin, Texas (3/3/03). *[47] M. C. Hersam, “Nanofabrication and characterization of electronic, photonic, and sensing devices down to the single molecule level,” presented orally by M. C. Hersam at the SPIE Photonics West Meeting, San Jose, California (1/29/03). *[46] M. C. Hersam, “Molecular devices on silicon,” presented orally by M. C. Hersam at the NASA Institute for Nanoelectronics and Computing Kick-Off Meeting, West Lafayette, Indiana (1/16/03). [45] M. S. Arnold, B. W. Messmore, E. R. Zubarev, S. I. Stupp, and M. C. Hersam, “Water soluble encapsulataon of single-walled carbon nanotubes by cross-linkable amphiphilic molecules,” presented as a poster by M. C. Hersam at the United Engineering Foundation Conference on Molecular-Scale Electronics, Key West, Florida (12/18/02). [44] N. P. Guisinger, R. Basu, E. T. Foley, and M. C. Hersam, “Direct charge transport measurements of individual organic molecules on semiconductor surfaces using scanning

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tunneling microscopy and spectroscopy,” presented orally by M. C. Hersam at the United Engineering Foundation Conference on Molecular-Scale Electronics, Key West, Florida (12/17/02). *[43] M. C. Hersam, “Nanoscale biological and chemical detection strategies,” presented orally by M. C. Hersam at the National Science Foundation/European Commission Workshop: From Nanomaterials to Nanotechnology, Cambridge, Massachusetts (12/7/02). *[42] M. C. Hersam, “Nanoscale control of friction and chemistry on silicon surfaces,” presented orally by M. C. Hersam at the Materials Research Society Fall Meeting, Boston, Massachusetfs (12/5/02). *[41] M. C. Hersam, “Materials Science and Engineering at the Single Molecule Level,” presented orally by M. C. Hersam at the American Society of Mechanical Engineers International Mechanical Engineering Congress, New Orleans, Louisiana (11/19/02). *[40] M. C. Hersam, “Molecular Scale Electromechanical Systems,” presented orally by M. C. Hersam at the Army Research Office Nanoelectromechanical Sysfems Workshop, Chicago, Illinois (11/14/02). [39] M. W. Such, C. R. Kinser, and M. C. Hersam, “Covalent nanopatterning of liquid phase organic molecules to silicon surfaces using conductive atomic force microscopy,” presented orally by M. C. Hersam at the 2002 AVS International Symposium, Denver, Colorado (11/7/02). [38] M. C. Hersam, “Generalizing feedback controlled lithography to ambient conditions,” presented orally by M. C. Hersam at the Nanoscale Science and Engineering Center Annual Meeting, Evanston, Illinois (9/16/02). [37] M. C. Hersam, “Single Molecule Surface Chemistry and Biology,” presented as a poster by M. C. Hersam at the Arnold and Mabel Beckman 11th Annual Young Investigators Symposium, Irvine, California (8/23/02). *[36] M. C. Hersam, “Single molecule sensing, characterization, and actuation,” presented orally by M. C. Hersam at the Symposium on Molecular Scale Devices, 6th World Multiconference on Systemics, Cybernetics, and Informatics, Orlando, Florida (7/18/02). *[35] M. C. Hersam, “Surface chemistry at the single molecule scale,” presented orally by M. C. Hersam at the Northwestern University Department of Chemistry Industrial Associates Meeting, Evanston, Illinois (5/16/02). *[34] M. C. Hersam, “Integrated nanopatterning and detection technologies,” presented orally by M. C. Hersam at the National Nanotechnology Initiative`Conference, Washington, D.C. (5/1/02). [33] M. C. Hersam, E. F. Fabbroni, M. W. Such, K. R. Shull, J. G. C. Veinot, and T. J. Marks, “Nanoscale potentiometry and spectroscopy of organic electronic and photonic materials and

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devices using conductive atomic force microscopy,” presented orally by M. C. Hersam at the American Physical Society March 2002 Meeting, Indianapolis, Indiana (3/21/02). *[32] M. C. Hersam, “Nanoscale Science and Engineering Education Outreach Programs,” presented as poster by M. C. Hersam at the 3rd EC/NSF Workshop on Nanotechnology, Lecce, Italy (1/31/02 – 2/1/02). *[31] M. C. Hersam, “Nanotechnology Review: Current Status and Future Prospects,” presented orally by M. C. Hersam at the Kellogg School of Management Biotechnology Conference, Evanston, Illinois (1/12/02). [30] M. C. Hersam, “Nanopatterning and nanocharacterization using scanned probe microscopy,” presented as a poster by M. C. Hersam at the Nanoparticles in Materials Science Franco-American Workshop, Evanston, Illinois (12/4/01). *[29] M. C. Hersam, “Atomic-scale Nanoelectronics,” presented orally by M. C. Hersam at the IEEE Electron Devices/Circuits and Systems/Solid State Circuits Chicago Chapter Meeting, Motorola Center, Schaumburg, Illinois (10/25/01). [28] M. C. Hersam, “Single Molecule Engineering,” presented as a poster by M. C. Hersam at the Argonne National Laboratory Center for Nanoscale Materials Workshop, Argonne, Illinois (10/22/01). [27] M. C. Hersam, “Yoctomolar Surface Chemistry and Biology,” presented as a poster by M. C. Hersam at the Arnold and Mabel Beckman 10th Annual Young Investigators Symposium, Irvine, California (8/25/01). [26] M. C. Hersam, “Scanning Tunneling Microscopy and Atomic Force Microscopy,” presented orally by M. C. Hersam at the Teaching Concepts Through Materials Conference, Evanston, Illinois (6/4/01). [25] M. C. Hersam, “Single Molecule Engineering,” presented as a poster by M. C. Hersam at the National Academy of Engineering Regional Symposium: “What’s New in Nano-Engineering?” Evanston, Illinois (4/26/01). *[24] M. C. Hersam, “From Single Molecules to Functional Materials,” presented orally by M. C. Hersam at the Materials Science Domain Dinner, Evanston, Illinois (4/19/01). *[23] M. C. Hersam, “Single molecule electronics,” presented orally by M. C. Hersam at the Great Lakes 2001 Symposium on VLSI, West Lafayette, Indiana (3/22/01 – 3/23/01). [22] M. C. Hersam, N. P. Guisinger, and J. W. Lyding, “Feedback controlled lithography of single molecule units on Si(100),” presented orally by M. C. Hersam at the American Physical Society March 2001 Meeting, Seattle, Washington (3/12/01 – 3/16/01).

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*[21] M. C. Hersam, “Single molecule sensing, characterization, and actuation,” presented orally by M. C. Hersam at Materials Connections (a joint symposium offered by the Department of Materials Science and Engineering of Northwestern University and the Materials Science Division of Argonne National Laboratory), Evanston, Illinois (3/6/01). *[20] M. C. Hersam, N. P. Guisinger, and J. W. Lyding, “Direct measurement of the electronic properties of individual molecules using scanning tunneling microscopy and spectroscopy,” presented orally by M. C. Hersam at Molecular Electronics 2000, Kailua-Kona, Hawaii (12/10/00 – 12/14/00). *[19] M. C. Hersam, N. P. Guisinger, and J. W. Lyding, “Assessing the impact of fundamental scanning tunneling microscopy studies on VLSI technology,” presented orally by M. C. Hersam at the 9th NASA Symposium on VLSI Design, Albuquerque, New Mexico (11/8/00 – 11/9/00). [18] M. C. Hersam, N. P. Guisinger, L. Liu, and J. W. Lyding, “Fundamental Approaches to Silicon-based Molecular Nanotechnology using the Scanning Tunneling Microscope,” presented orally by M. C. Hersam at the 2000 American Vacuum Society (AVS) International Symposium, Boston, Massachusetts (10/2/00 – 10/6/00). [17] M. C. Hersam and J. W. Lyding, "Silicon-based molecular nanotechnology," presented orally by M. C. Hersam at the Molecular and Electronic Nanostructures Seminar, Urbana, Illinois (1/26/00). *[16] J. W. Lyding and M. C. Hersam, "Silicon-based molecular nanoelectronics: Fabrication and characterization at the molecular size scale," presented orally by J. W. Lyding and M. C. Hersam at the 1999 Workshop on Surfaces and Interfaces of Mesoscopic Devices, Maui, Hawaii (12/6/99 – 12/10/99). [15] M. C. Hersam and J. W. Lyding, "Isolating, Imaging, and Electrically Characterizing Individual Organic Molecules on the Si(100) Surface with the Scanning Tunneling Microscope," presented orally by M. C. Hersam at the 1999 American Vacuum Society (AVS) International Symposium, Seattle, Washington (10/25/99 - 10/29/99). [14] M. C. Hersam and J. W. Lyding, "Silicon-based molecular nanotechnology," presented as a poster by M. C. Hersam at the Seventh Foresight Conference on Molecular Nanotechnology, Santa Clara, California (10/15/99 - 10/17/99). [13] M. C. Hersam, G. C. Abeln, and J. W. Lyding, "Nanostructure fabrication via UHV-STM lithography and thermal CVD," presented orally by M. C. Hersam at the 1998 Fourth International Symposium on New Phenomena in Mesoscopic Structures, Kauai, Hawaii (12/7/98 - 12/11/98). [12] M. C. Hersam, G. C. Abeln, and J. W. Lyding, "Fabrication of metal and organic nanostructures using STM," presented orally by M. C. Hersam at the Molecular and Electronic Nanostructures Seminar, Urbana, Illinois (12/2/98).

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[11] M. C. Hersam, G. C. Abeln, D. S. Thompson, J. S. Moore, H. Choi, S.-T. Hwang, and J. W. Lyding, "Fabrication of metallic nanowires via UHV-STM lithography and thermal CVD," presented orally by M. C. Hersam at the 1998 American Vacuum Society (AVS) International Symposium, Baltimore, Maryland (11/2/98 - 11/6/98). *[10] J. W. Lyding and M. C. Hersam, "UHV-STM nanofabrication: transitions to technology," presented orally by J. W. Lyding and M. C. Hersam at PHASDOM '98, Neuchatel, Switzerland (9/28/98 - 9/30/98). [9] M. C. Hersam, G. C. Abeln, D. S. Thompson, J. S. Moore, H. Choi, S.-T. Hwang, and J. W. Lyding, "Nanostructure fabrication via UHV-STM lithography and thermal chemical vapor deposition," presented as a poster by M. C. Hersam at PHASDOM '98, Neuchatel, Switzerland (9/28/98 - 9/30/98). [8] M. C. Hersam, G. C. Abeln, H. Choi, S.-T. Hwang, D. S. Thompson, J. S. Moore, and J. W. Lyding, "Fabrication and characterization of metal and organic nanostructures on Si(100) surfaces," presented orally by M. C. Hersam at the 1998 Fifth International Conference on Nanometer-scale Science and Technology (NANO5), Birmingham, United Kingdom (8/31/98 - 9/4/98). [7] M. C. Hersam, G. C. Abeln, D. S. Thompson, J. S. Moore, H. Choi, S.-T. Hwang, and J. W. Lyding, "Fabrication and characterization of metal and organic nanostructures on the Si(100) surface," presented as a poster by M. C. Hersam at the 1998 Gordon Research Conference (GRC) on Nanostructure Fabrication, Tilton College, New Hampshire (6/21/98 - 6/26/98). [6] M. C. Hersam, G. C. Abeln, J. W. Lyding, D. S. Thompson, and J. S. Moore, "Nanoscale patterning of aluminum and organic monolayers on Si(100) using STM," presented orally by M. C. Hersam at the 1998 Materials Research Society (MRS) Spring Meeting, San Francisco, California (4/13/98 - 4/17/98). [5] M. C. Hersam, A. C. F. Hoole, S. J. O'Shea, and M. E. Welland, "Analysis and manipulation of electrically stressed nanowires using atomic force microscopy," presented orally by M. C. Hersam at the Molecular and Electronic Nanostructures Seminar, Urbana, Illinois (10/1/97). [4] M. C. Hersam, A. C. F. Hoole, S. J. O'Shea, and M. E. Welland, "Analysis and manipulation of electrically stressed nanowires using atomic force microscopy," presented as a poster by M. C. Hersam at Scanning Tunneling Microscopy (STM) 1997, Hamburg, Germany (7/20/97 - 7/25/97). [3] M. C. Hersam, M. Tao, G. C. Abeln, and J. W. Lyding, "Cross-sectional scanning tunneling microscopy of UHV cleaved Si(111) surfaces," presented orally by M. C. Hersam at the 1996 University of Illinois Undergraduate Research Symposium, Urbana, Illinois (4/20/96). [2] M. C. Hersam, G. C. Abeln, and J. W. Lyding, "Cross-sectional scanning tunneling microscopy of ultra-high vacuum cleaved Si(111) surfaces," presented orally by M. C. Hersam at the 1995 Argonne Research Symposium, Argonne, Illinois (11/3/95-11/4/95).

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[1] M. C. Hersam, G. C. Abeln, and J. W. Lyding, "Cross-sectional scanning tunneling microscopy of in situ cleaved Si(111) surfaces," presented orally by M. C. Hersam at the 1995 Center for Compound Semiconductor Microelectronics (CCSM) Undergraduate Symposium, Urbana, Illinois (9/8/95). Colloquia and Seminars (*indicates invited talk) *[168] M. C. Hersam, “Nanostructured battery materials: Revolutionizing transportation and renewable energy,” presented orally by M. C. Hersam at the Northwestern University Science Café Seminar Series, Evanston, Illinois (11/20/19). *[167] M. C. Hersam, “Biocompatibility and applications of printable and flexible nanoelectronic materials,” presented orally by M. C. Hersam at the Distinguished Lectures in Life Sciences Series, Chicago, Illinois (10/29/19). *[166] M. C. Hersam, “Emerging materials for quantum information science,” presented orally by M. C. Hersam at the Second Quantum Revolution Domain Dinner, Evanston, Illinois (10/21/19). *[165] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive two-dimensional materials,” presented orally by M. C. Hersam at the University of Chemistry and Technology Seminar Series, Prague, Czech Republic (9/11/19). *[164] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive two-dimensional materials,” presented orally by M. C. Hersam at the Soochow University Seminar Series, Soochow, China (8/2/19). *[163] M. C. Hersam, “Controlling and tailoring the electronic properties of chemically reactive two-dimensional materials,” presented orally by M. C. Hersam at the Northwestern University Chemistry Department Colloquium, Evanston, Illinois (2/15/19). *[162] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Johns Hopkins University Chemistry Colloquium, Tempe, Arizona (2/5/19). *[161] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Arizona State University Materials Seminar Series, Tempe, Arizona (1/25/19). *[160] M. C. Hersam, “Printable two-dimensional nanomaterial inks for electronic and energy applications,” presented orally by M. C. Hersam at the University of Minnesota Industrial Partnership for Research in Interfacial and Materials Engineering, Minneapolis, Minnesota (1/15/19).

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*[159] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Hamline University Kay Malmstrom Lecture in Physics, Saint Paul, Minnesota (11/9/18). *[158] M. C. Hersam, “Atomically precise characterization and control of emerging 2D materials,” presented orally by M. C. Hersam at the Hamline University Physics Seminar Series, Saint Paul, Minnesota (11/8/18). *[157] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Shaanxi University of Science and Technology Seminar Series, Xi’an, China (9/18/18). *[156] M. C. Hersam, “Printable two-dimensional nanomaterial inks for electronic and energy applications,” presented orally by M. C. Hersam at the PPG Coatings Innovation Center Seminar Series, Pittsburgh, Pennsylvania (9/13/18). *[155] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Micron Technology Seminar Series, Boise, Idaho (9/7/18). *[154] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Boise State University Materials Science and Engineering Seminar Series, Boise, Idaho (9/7/18). *[153] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the IISER Pune Physics Department Seminar Series, Pune, India (3/22/18). *[152] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the Missouri State University Campus Wide Seminar Series, Springfield, Missouri (3/2/18). *[151] M. C. Hersam, “Improving lithium ion batteries with nanostructure electrodes,” presented orally by M. C. Hersam at the Missouri State University Physics, Astronomy, and Materials Science Seminar Series, Springfield, Missouri (3/2/18). *[150] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures,” presented orally by M. C. Hersam at the University of Colorado Materials and Nanoscience Seminar Series, Boulder, Colorado (2/19/18). *[149] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures,” presented orally by M. C. Hersam at the Washington University Institute of Materials Science and Engineering Seminar Series, St. Louis, Missouri (2/5/18).

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*[148] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the University of Washington Materials Science and Engineering Seminar Series, Seattle, Washington (1/22/18). *[147] M. C. Hersam, “Mixed-dimensional nanomaterial heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the University of Chemistry and Technology Seminar Series, Prague, Czech Republic (12/14/17). *[146] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures,” presented orally by M. C. Hersam at the Harvard University Rowland Institute Seminar Series, Cambridge, Massachusetts (11/29/17). *[145] M. C. Hersam, “Mixed-dimensional van der Waals heterostructures,” presented orally by M. C. Hersam at the University of Illinois at Chicago Chemistry Department Seminar Series, Chicago, Illinois (11/9/17). *[144] M. C. Hersam, “Processing and applications of two-dimensional nanomaterial inks,” presented orally by M. C. Hersam at the Air Force Research Laboratory Seminar Series, Dayton, Ohio (10/12/17). *[143] M. C. Hersam, “Graphene and beyond: Nanomaterials in the two-dimensional limit,” presented orally by M. C. Hersam at the Center for Sustainable Nanotechnology Webinar Series, Evanston, Illinois (9/20/17). *[142] M. C. Hersam, “Mixed-dimensional nanomaterial heterostructures for electronic and energy applications,” presented orally by M. C. Hersam at the University of Maryland Sigma-Aldrich Distinguished Lecture in Materials, College Park, Maryland (9/6/17). *[141] M. C. Hersam, “Chemically functionalized two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the University of South Carolina Willard Davis Lecture, Columbia, South Carolina (4/13/17). *[140] M. C. Hersam, “Control and characterization of two-dimensional heterostructure interfaces,” presented orally by M. C. Hersam at the University of California at Berkeley Condensed Matter Physics Seminar Series, Berkeley, California (3/21/17). *[139] M. C. Hersam, “Chemically functionalized two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Caltech Materials Research Seminar Series, Pasadena, California (3/1/17). *[138] M. C. Hersam, “Chemically functionalized two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Wayne State University Nanotechnology Seminar Series, Detroit, Michigan (2/21/17).

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*[137] M. C. Hersam, “Processing and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the University of Southern California Munushian Distinguished Lecture Series, Los Angeles, California (1/26/17). *[136] M. C. Hersam, “Processing and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Iowa State University Mechanical Engineering Seminar Series, Ames, Iowa (1/10/17). *[135] M. C. Hersam, “Introduction to nanometer scale science and technology,” presented orally by M. C. Hersam at Downers Grove South High School, Downers Grove, Illinois (9/30/16). *[134] M. C. Hersam, “Fundamentals and applications of low-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the National Institute for Materials Physics Seminar Series, Bucharest, Romania (9/16/16). *[133] M. C. Hersam, “Fundamentals and applications of low-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Institute of Microelectronic Technologies Seminar Series, Bucharest, Romania (9/15/16). *[132] M. C. Hersam, “Ubiquitous electronics and sensors: Enabling the internet of things,” presented orally by M. C. Hersam at the Polytehnica University of Bucharest Seminar Series, Bucharest, Romania (9/15/16). *[131] M. C. Hersam, “Fundamentals and applications of low-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the J. Heyrovsky Institute of Physical Chemistry Seminar Series, Prague, Czech Republic (9/12/16). *[130] M. C. Hersam, “How leaders innovate: Transitioning scientific research to commercializable technologies,” presented orally by M. C. Hersam at the Yerevan Leadership School, Yerevan, Armenia (7/29/16). *[129] M. C. Hersam, “Introduction to nanometer scale science and technology,” presented orally by M. C. Hersam at the Vanadzor American Corner, Vanadzor, Armenia (7/27/16). *[128] M. C. Hersam, “From smart technology to the internet of things,” presented orally by M. C. Hersam at the Georgia Innovation and Technology Agency, Tbilisi, Georgia (7/26/16). *[127] M. C. Hersam, “Ubiquitous electronics and sensors: Enabling the internet of things,” presented orally by M. C. Hersam at the Tbilisi American Corner, Tbilisi, Georgia (7/25/16). *[126] M. C. Hersam, “Fundamentals and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Ajou University BK21 Seminar Series, Suwon, Korea (7/11/16).

121

*[125] M. C. Hersam, “Processing and properties of monodisperse solution-processed nanomaterials,” presented orally by M. C. Hersam at the AmorePacific Seminar Series, Suwon, Korea (7/11/16). *[124] M. C. Hersam, “Fundamentals and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the National University of Singapore Centre for Advanced 2D Materials Seminar Series, Singapore, Singapore (7/8/16). *[123] M. C. Hersam, “Fundamentals and applications of two-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Rice University Materials Science and Nanoengineering Seminar Series, Houston, Texas (4/7/16). *[122] M. C. Hersam, “Processing and properties of low-dimensional nanomaterial heterostructures,” presented orally by M. C. Hersam at the Illinois State University Department of Physics Colloquium Series, Normal, Illinois (2/16/16). *[121] M. C. Hersam, “Fundamentals and applications of low-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the University of Tokyo Institute for Solid State Physics Seminar Series, Tokyo, Japan (2/10/16). *[120] M. C. Hersam, “Fundamentals and applications of low-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Gunma University Faculty of Science and Technology Colloquium, Gunma, Japan (2/9/16). *[119] M. C. Hersam, “Fundamentals and applications of low-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Michigan Technological University Physics Department Colloquium, Houghton, Michigan (2/4/16). *[118] M. C. Hersam, “Fundamentals and applications of low-dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Rochester Institute of Technology Dean’s Distinguished Seminar Series, Rochester, New York (1/28/16). *[117] M. C. Hersam, “Mixed dimensional nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Argonne National Laboratory Materials Science Division Colloquium Series (1/14/16). *[116] M. C. Hersam, “Fundamentals and applications of low-dimensional nanomaterial heterostructures,” presented orally by M. C. Hersam at the University of North Carolina Materials Chemistry Seminar Series, Chapel Hill, North Carolina (11/19/15). *[115] M. C. Hersam, “Ubiquitous electronics and sensors: Enabling the internet of things,” presented orally by M. C. Hersam at the Illinois Chemical Education Foundation Scholarship Luncheon, Des Plaines, Illinois (5/21/15).

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*[114] M. C. Hersam, “Ubiquitous electronics and sensors: Enabling the internet of things,” presented orally by M. C. Hersam at the Transformative Technologies Domain Dinner, Evanston, Illinois (4/7/15). *[113] M. C. Hersam, “Carbon and post-carbon nanomaterial heterostructures: Opportunities for photovoltaics and beyond,” presented orally by M. C. Hersam at the Argonne-Northwestern Solar Energy Research Center Seminar Series, Evanston, Illinois (2/5/15). *[112] M. C. Hersam, “Integrating nanomaterials into heterostructure devices and systems,” presented orally by M. C. Hersam at the National Research Council of Canada Colloquium, Ottawa, Canada (1/23/15). *[111] M. C. Hersam, “Integrating nanomaterials into heterostructure devices and systems,” presented orally by M. C. Hersam at the Northwestern University Department of Physics and Astronomy Colloquium, Evanston, Illinois (1/9/15). *[110] M. C. Hersam, “Chemically refined nanoelectronic heterostructures,” presented orally by M. C. Hersam at the Office of Naval Research Distinguished Lecture Series, Arlington, Virginia (12/5/14). *[109] M. C. Hersam, “Nanomaterial heterostructures for electronic and energy technologies,” presented orally by M. C. Hersam at the Georgia Institute of Technology School of Chemical and Biomolecular Engineering Seminar Series, Atlanta, Georgia (9/10/14). *[108] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the KAIST Department of Materials Science and Engineering Seminar Series, Daejeon, Korea (8/27/14). *[107] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the University of Texas at San Antonio Graduate Research Seminar Series, San Antonio, Texas (2/28/14). *[106] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the University of South Florida Department of Physics Colloquium, Tampa, Florida (1/24/14). *[105] M. C. Hersam, “Monodisperse carbon nanomaterial heterostructures,” presented orally by M. C. Hersam at the Argonne National Laboratory Center for Nanoscale Materials Colloquium, Argonne, Illinois (12/18/13). *[104] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Peking University College of Chemistry Seminar Series, Beijing, China (9/5/13).

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*[103] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Northwestern University Biotechnology Training Program Seminar Series, Evanston, Illinois (8/22/13). *[102] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Yonsei University Department of Materials Science and Engineering Seminar Series, Seoul, Korea (7/9/13). *[101] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Ajou University BK21 Seminar Series, Suwon, Korea (7/8/13). *[100] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Nanyang Technological University School of Chemical and Biomedical Engineering Seminar Series, Singapore (7/5/13). *[99] M. C. Hersam, “Chemically refined carbon nanomaterials,” presented orally by M. C. Hersam at the Naval Research Laboratory Electronic Science and Technology Division Colloquium, Washington, DC (6/6/13). *[98] M. C. Hersam, “The age of carbon: Buckyballs, nanotubes, graphene, and beyond,” presented orally by M. C. Hersam at the Linus Pauling Memorial Lecture, Portland, Oregon (5/24/13). *[97] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Drexel University Materials Science and Engineering Seminar Series, Philadelphia, Pennsylvania (2/20/13). *[96] M. C. Hersam, “Chemically enhanced carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Jet Propulsion Laboratory MDL Seminar Series, Pasadena, California (2/5/13). *[95] M. C. Hersam, “Chemically enhanced carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the University of Central Florida NSTC/AMPAC Seminar Series, Orlando, Florida (1/17/13). *[94] M. C. Hersam, “Chemically enhanced carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Loyola University Department of Chemistry Colloquium, Chicago, Illinois (11/15/12). *[93] M. C. Hersam, “Chemically enhanced carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the University of Michigan Solid State Electronics Laboratory Seminar Series, Ann Arbor, Michigan (9/14/12).

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*[92] M. C. Hersam, “Chemically functionalized carbon nanomaterials,” presented orally by M. C. Hersam at the Weizmann Institute of Science Dwek Research School in Chemistry Symposium, Rehovot, Israel (7/16/12). *[91] M. C. Hersam, “Chemically refined carbon nanomaterials,” presented orally by M. C. Hersam at the Argonne National Laboratory Materials Science Division Colloquium Series, Argonne, Illinois (5/24/12). *[90] M. C. Hersam, “The age of carbon: Buckyballs, nanotubes, graphene, and beyond,” presented orally by M. C. Hersam at the Fermilab Lecture Series, Batavia, Illinois (5/18/12). *[89] M. C. Hersam, “Chemically refined carbon nanomaterials,” presented orally by M. C. Hersam at the IBM Industry Solutions Laboratory, Hawthorne, New York (3/29/12). *[88] M. C. Hersam, “Chemically refined carbon nanomaterials,” presented orally by M. C. Hersam at the McMaster University Department of Chemistry Seminar Series, Hamilton, Ontario (3/1/12). *[87] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the University of Illinois AVS Student Chapter Seminar Series, Urbana, Illinois (2/17/12). *[86] M. C. Hersam, “Chemically refined carbon nanomaterials for electronics, energy, and medicine,” presented orally by M. C. Hersam at the Carnegie Mellon Materials Science and Engineering Colloquium Series, Pittsburgh, Pennsylvania (2/3/12). *[85] M. C. Hersam, “Chemically refined carbon nanomaterials,” presented orally by M. C. Hersam at the Georgia Institute of Technology MRSEC Seminar Series, Atlanta, Georgia (1/26/12). *[84] M. C. Hersam, “Biochemical processing and application of carbon nanomaterials,” presented orally by M. C. Hersam at the Northwestern University Rheumatology Grand Rounds Seminar Series, Chicago, Illinois (1/19/12). *[83] M. C. Hersam, “Chemically refined carbon nanomaterials,” presented orally by M. C. Hersam at the Samsung Mobile Display Seminar Series, Suwon, Korea (12/10/11). *[82] M. C. Hersam, “Chemically refined carbon nanomaterials,” presented orally by M. C. Hersam at the SKKU Advanced Institute of Nanotechnology Seminar Series, Suwon, Korea (12/10/11). *[81] M. C. Hersam, “The age of carbon: Buckyballs, nanotubes, graphene, and beyond,” presented orally by M. C. Hersam at the Northwestern University Materials Science Club Seminar Series, Evanston, Illinois (11/9/11).

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*[80] M. C. Hersam, “Chemical functionalization of graphene,” presented orally by M. C. Hersam at the Cornell University Baker Symposium, Ithaca, New York (4/30/11). *[79] M. C. Hersam, “Chemically functionalized carbon nanomaterials,” presented orally by M. C. Hersam at the California NanoSystems Institute Seminar Series, Los Angeles, California (4/5/11). *[78] M. C. Hersam, “Fundamentals and applications of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the Rutgers University Institute for Advanced Materials, Devices and Nanotechnology Seminar Series, Piscataway, New Jersey (2/9/11). *[77] M. C. Hersam, “Fundamentals and applications of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the Nanotechnology for Clean Energy IGERT Seminar Series, Princeton, New Jersey (2/8/11). *[76] M. C. Hersam, “Fundamentals and applications of monodisperse carbon nanomaterials,” presented orally by M. C. Hersam at the Indiana University Chemistry Department Materials Seminar Series, Bloomington, Indiana (1/25/11). *[75] M. C. Hersam, “Fundamentals and applications of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the University of Illinois Nanoelectronics and Photonics Seminar Series, Urbana, Illinois (1/24/11). *[74] M. C. Hersam, “Blurring the boundaries: Opportunities for medicine at the interface between the physical and life sciences,” presented orally by M. C. Hersam at the Alumnae Continuing Education Forum, Evanston, Illinois (10/14/10). *[73] M. C. Hersam, “Chemically enhanced carbon-based nanomaterials and devices,” presented orally by M. C. Hersam at the Purdue University Department of Chemistry Colloquium, West Lafayette, Indiana (9/9/10). *[72] M. C. Hersam, “Chemically enhanced carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the Nanoelectronics Research Initiative e-Workshop Series, Evanston, Illinois (5/25/10). *[71] M. C. Hersam, “Enhancing carbon-based nanomaterials and devices via chemical processing,” presented orally by M. C. Hersam at the Case Western Reserve University Department of Chemical Engineering Seminar Series, Cleveland, Ohio (2/18/10). *[70] M. C. Hersam, “Chemically tailored carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the University of Chicago Department of Chemistry Colloquium, Chicago, Illinois (1/11/10). *[69] M. C. Hersam, “Chemically tailored carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the University of Connecticut Polymer Program Seminar Series, Storrs, Connecticut (11/20/09).

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*[68] M. C. Hersam, “Chemically tailored carbon-based nanoelectronic materials and devices,” presented orally by M. C. Hersam at the Princeton University Department of Chemistry Seminar Series, Princeton, New Jersey (8/11/09). *[67] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the Chinese Academy of Sciences Zhong Guan Cun Forum, Beijing, China (6/25/09). *[66] M. C. Hersam, “Functionalized carbon nanotubes: Processing, characterization, and applications,” presented orally by M. C. Hersam at the Northwestern University Division of Rheumatology Seminar Series, Chicago, Illinois (5/21/09). *[65] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the Berkeley Sensor and Actuator Center Industrial Advisory Board Meeting, Berkeley, California (3/11/09). *[64] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the Hillsdale College Department of Chemistry Seminar Series, Hillsdale, Michigan (2/24/09). *[63] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the Duke University Bioengineering Seminar Series, Durham, North Carolina (2/12/09). *[62] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the University of California at Irvine Chemical Engineering and Materials Science Colloquium, Irvine, California (2/6/09). *[61] M. C. Hersam, “Preparation and characterization of monodisperse carbon nanotube materials and devices,” presented orally by M. C. Hersam at the University of Pennsylvania Materials Science and Engineering Colloquium, Philadelphia, Pennsylvania (1/22/09). *[60] M. C. Hersam, “Introduction to nanometer scale science and technology,” presented orally by M. C. Hersam at Schiff Hardin LLP, Chicago, Illinois (1/15/09). *[59] M. C. Hersam, “Introduction to nanometer scale science and technology,” presented orally by M. C. Hersam at the Nanotechnology Town Hall Meeting, Evanston, Illinois (12/2/08). *[58] M. C. Hersam, “Monodisperse single-walled carbon nanotubes: Processing, applications, and commercialization,” presented orally by M. C. Hersam at the Kellogg NanoAlliance Seminar Series, Evanston, Illinois (11/13/08). *[57] M. C. Hersam, “Grand challenges for engineering,” presented orally by M. C. Hersam at the Tau Beta Pi Initiation Ceremony, Evanston, Illinois (11/2/08).

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*[56] M. C. Hersam, “Nanomaterials for electronics, sensing, and alternative energy,” presented orally by M. C. Hersam at the McCormick Advisory Council Meeting, Evanston, Illinois (10/10/08). *[55] M. C. Hersam, “Preparation and application of high purity carbon-based nanomaterials,” presented orally by M. C. Hersam at the Seoul National University Department of Physics Colloquium Series, Seoul, Korea (2/13/08). *[54] M. C. Hersam, “Single molecule chemistry on silicon surfaces characterized by ultra-high vacuum scanning tunneling microscopy,” presented orally by M. C. Hersam at the Ajou University Molecular Science and Technology Seminar Series, Suwon, Korea (2/12/08). *[53] M. C. Hersam, “Tuning the electrical and optical properties of monodisperse carbon-based nanomaterials,” presented orally by M. C. Hersam at the Ajou University Molecular Science and Technology Seminar Series, Suwon, Korea (2/12/08). *[52] M. C. Hersam, “Production and application of high purity carbon-based nanomaterials,” presented orally by M. C. Hersam at the University of Illinois at Chicago Department of Mechanical and Industrial Engineering Colloquium Series, Chicago, Illinois (1/22/08). *[51] M. C. Hersam, “Carbon nanotubes: A new form of particulate matter,” presented orally by M. C. Hersam at the Northwestern University Division of Pulmonary and Critical Care Colloquium Series, Chicago, Illinois (12/17/07). *[50] M. C. Hersam, “Probing the structure and properties of individual molecules on silicon surfaces,” presented orally by M. C. Hersam at the University of Albany College of Nanoscale Science and Engineering Colloquium Series, Albany, New York (12/7/07). *[49] M. C. Hersam, “Recent developments and applications of high purity carbon nanomaterials,” presented orally by M. C. Hersam at the Rensselaer Polytechnic Institute Department of Materials Science and Engineering Colloquium Series, Troy, New York (12/6/07). *[48] M. C. Hersam, “Structure, properties, and processing of chirality-resolved single-walled carbon nanotubes,” presented orally by M. C. Hersam at the University of Arkansas at Little Rock Joint College Colloquium Series, Little Rock, Arkansas (9/14/07). *[47] M. C. Hersam, “Characterization and manipulation of single molecule chemistry on silicon surfaces,” presented orally by M. C. Hersam at the Argonne National Laboratory Center for Nanoscale Materials Colloquium, Argonne, Illinois (9/6/07). *[46] M. C. Hersam, “Hybrid organic/inorganic nanomaterials: Characterization, processing, and applications,” presented orally by M. C. Hersam at the Kenyon College Department of Physics Colloquium, Gambier, Ohio (4/23/07).

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*[45] M. C. Hersam, “Organic functionalization of semiconductor surfaces for molecular electronic and biosensing applications,” presented orally by M. C. Hersam at the Joint Symposium between Northwestern University and Yonsei University, Evanston, Illinois (4/13/07). *[44] M. C. Hersam, “Chirality-resolved single-walled carbon nanotubes,” presented orally by M. C. Hersam at the Cornell University Center for Nanoscale Systems Seminar Series, Ithaca, New York (3/29/07). *[43] M. C. Hersam, “Structure, properties, and processing of chirality-resolved single-walled carbon nanotubes,” presented orally by M. C. Hersam at the University of Louisville Chemical Engineering Colloquium, Louisville, Kentucky (3/9/07). *[42] M. C. Hersam, “Probing molecular electronics with scanning probe microscopy,” presented orally by M. C. Hersam at the Ajou University Molecular Science and Technology Seminar Series, Suwon, Korea (2/27/07). *[41] M. C. Hersam, “Chirality-resolved single-walled carbon nanotubes,” presented orally by M. C. Hersam at the Ajou University Molecular Science and Technology Seminar Series, Suwon, Korea (2/26/07). *[40] M. C. Hersam, “Nanoelectronics: Device physics and fabrication technology,” presented orally by M. C. Hersam at the Ajou University Molecular Science and Technology Seminar Series, Suwon, Korea (2/26/07). *[39] M. C. Hersam, “Introduction to nanometer scale science and technology,” presented orally by M. C. Hersam at the Ajou University Molecular Science and Technology Seminar Series, Suwon, Korea (2/26/07). *[38] M. C. Hersam, “High performance carbon nanotube materials,” presented orally by M. C. Hersam at Northrop Grumman, Rolling Meadows, Illinois (1/29/07). *[37] M. C. Hersam, “Sorting single-walled carbon nanotubes via density gradient centrifugation,” presented orally by M. C. Hersam at the Nano Business Alliance Seminar Series, Skokie, Illinois (12/12/06). *[36] M. C. Hersam, “Functionalized single-walled carbon nanotubes: Characterization, applications, and sorting by electronic structure,” presented orally by M. C. Hersam at the Illinois Institute of Technology Department of Chemistry Colloquium, Chicago, Illinois (12/1/06). *[35] M. C. Hersam, “High-density biomedical nanosensors,” presented orally by M. C. Hersam at the Lifelong Learners Seminar Series, Chicago, Illinois (11/8/06).

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*[34] M. C. Hersam, “Introduction to nanometer scale science and technology,” presented orally by M. C. Hersam at the Harold Washington College Nanoscience Seminar Series, Chicago, Illinois (10/5/06). *[33] M. C. Hersam, “Probing chemistry and electronic structure at the single molecule level with scanning tunneling microscopy,” presented orally by M. C. Hersam at the Tufts University Department of Chemistry Colloquium, Medford, Massachusetts (10/3/06). *[32] M. C. Hersam, “Functionalized carbon nanotubes: Purification, characterization, and device applications,” presented orally by M. C. Hersam at the Center for Quantum Devices Seminar Series, Evanston, Illinois (8/31/06). *[31] M. C. Hersam, “Probing organic chemistry on silicon surfaces at the single molecule level with ultra-high vacuum scanning tunneling microscopy,” presented orally by M. C. Hersam at the University of California at Riverside Chemistry Department Colloquium, Riverside, California (6/7/06). *[30] M. C. Hersam, “Assessing the prospects and limitations of silicon-based molecular electronics with ultra-high vacuum scanning tunneling microscopy,” presented orally by M. C. Hersam at the University of Illinois at Urbana-Champaign Materials Science and Engineering Department Colloquium, Urbana, Illinois (4/17/06). *[29] M. C. Hersam, “Hybrid organic/inorganic nanomaterials: Characterization, processing, and potential applications,” presented orally by M. C. Hersam at the University of Pennsylvania Materials Science and Engineering Colloquium, Philadelphia, Pennsylvania (9/29/05). *[28] M. C. Hersam, “Introduction to nanoscale science and technology,” presented orally by M. C. Hersam at the Khon Kaen University School of Pharmacy Colloquium, Khon Kaen, Thailand (8/10/05). *[27] M. C. Hersam, “Probing silicon-based molecular electronics with scanning tunneling microscopy,” presented orally by M. C. Hersam at the Columbia University Nanoscale Science and Engineering Center Seminar Series, New York, New York (4/27/05). *[26] M. C. Hersam, “Probing electronic properties at the single molecule level on silicon surfaces,” presented orally by M. C. Hersam at the Yale University Solid State and Optics Seminar Series, New Haven, Connecticut (4/13/05). *[25] M. C. Hersam, “Introduction to Nanometer Scale Science and Technology,” presented orally by M. C. Hersam at the NCLT Seminar Series, Evanston, Illinois (1/18/05). *[24] M. C. Hersam, “Enhancing Nanoelectronics and Nanophotonics with Organic and Biological Molecules,” presented orally by M. C. Hersam at the Mornings at McCormick Seminar Series, Evanston, Illinois (12/7/04).

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*[23] M. C. Hersam, “Nanoscale surface characterization and patterning strategies for organic and biological molecules,” presented orally by M. C. Hersam at the Children’s Memorial Research Center Colloquium, Chicago, Illinois (11/12/04). *[22] M. C. Hersam, “Resonant tunneling through individual molecules on silicon: Implications for electronics and chemical spectroscopy,” presented orally by M. C. Hersam at the Argonne National Laboratory Materials Science Division Colloquium, Argonne, Illinois (5/20/04). *[21] M. C. Hersam, “Nanoscale electrical and optical functionality in individual organic molecules and encapsulated single-walled carbon nanotubes,” presented orally by M. C. Hersam at the Molecular and Electronic Nanostructures Seminar Series, Urbana, Illinois (4/21/04). *[20] M. C. Hersam, “Status and Prospects for Nanoelectronics,” presented orally by M. C. Hersam at the Western New England College School of Engineering Annual Symposium, Springfield, Massachusetts (10/25/03). *[19] M. C. Hersam, “Realization of Nanoscale Electrical and Optical Functionality in Individual Organic Molecules and Carbon Nanotubes,” presented orally by M. C. Hersam at the Seoul National University Department of Physics Colloquium, Seoul, Korea (9/5/03). *[18] M. C. Hersam, “Realization of Nanoscale Electrical and Optical Functionality in Individual Organic Molecules and Carbon Nanotubes,” presented orally by M. C. Hersam at the Ajou University Department of Molecular Science and Technology Colloquium, Suwon, Korea (9/3/03). *[17] M. C. Hersam, “Nanoscale materials science and engineering down to the single molecule level,” presented orally by M. C. Hersam at the Pennsylvania State University Materials Science and Engineering Colloquium, University Park, Pennsylvania (10/31/02). *[16] M. C. Hersam, “Single molecule electronics,” presented orally by M. C. Hersam at the Northwestern University Center for Quantum Devices Colloquium, Evanston, Illinois (4/25/02). *[15] M. C. Hersam, “Single molecule electronics,” presented orally by M. C. Hersam at the University of Kentucky Electrical and Computer Engineering Colloquium, Lexington, Kentucky (4/12/02). *[14] M. C. Hersam, “Nanofabrication and characterization of electronic, photonic, and sensing devices down to the single molecule level,” presented orally by M. C. Hersam at the Michigan State University Electrical and Computer Engineering Colloquium, East Lansing, Michigan (3/28/02). *[13] M. C. Hersam, “Scanned probe microscopy analysis and manipulation of organic molecules on silicon surfaces,” presented orally by M. C. Hersam at the Northwestern University Condensed Matter Physics Colloquium, Evanston, Illinois (3/7/02).

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*[12] M. C. Hersam, “Nanoscale Control and Characterization of Silicon Surface Chemistry Using Scanned Probe Microscopy,” presented orally by M. C. Hersam at the Northwestern University Institute for Environmental Catalysis Colloquium, Evanston, Illinois (2/15/02). *[11] M. C. Hersam, “Nanoelectronic Device and Materials Characterization,” presented orally by M. C. Hersam at the Northwestern University Materials Research Science and Engineering Center Colloquium, Evanston, Illinois (2/14/02). *[10] M. C. Hersam, “Atomic-scale Nanoelectronics,” presented orally by M. C. Hersam at the Electrical and Computer Engineering Colloquium, University of Illinois at Chicago, Illinois (11/29/01). *[9] M. C. Hersam, “Fundamental approaches to silicon-based molecular nanotechnology using the scanning tunneling microscope,” presented orally by M. C. Hersam at the Northwestern University Physical Chemistry Colloquium, Evanston, Illinois (1/5/01). *[8] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at the Georgia Institute of Technology, Electrical and Computer Engineering Department (4/18/00). *[7] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at the Massachusetts Institute of Technology, Electrical Engineering and Computer Science Department (4/13/00). *[6] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at the University of California at Berkeley, Electrical Engineering and Computer Science Department (4/6/00). *[5] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at the University of Michigan, Electrical Engineering and Computer Science Department (3/14/00). *[4] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at Ohio State University, Electrical Engineering Department (3/6/00). *[3] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at Purdue University, Electrical and Computer Engineering Department (2/22/00). *[2] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at Northwestern University, Materials Science and Engineering Department (2/14/00). *[1] M. C. Hersam, “Silicon-based molecular nanotechnology,” presented orally by M. C. Hersam at the University of Texas at Dallas, Electrical Engineering Department (12/15/99).