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Muhammad Mustafa Hussain Professor, Electrical Engineering, Computer Electrical Mathematical Science and Engineering Division King Abdullah University of Science and Technology (KAUST), Thuwal, Saudi Arabia Phone: +966-544-700-072 or +1-512-351-3527 Email: muhammadmustafa.hussain@kaust.edu.sa Web: http://nanotechnology.kaust.edu.sa or http://mmhlabs.org Founder: live electronics, LLC. Austin, TX, USA and Global presence: Saudi Arabia, Bangladesh, India, UAE Permanent Address: 3824 Yarborough Ave, Austin, TX 78744, USA. DOB: 11 Aug 1976 and Citizenship: USA RESEARCH Nature inspired flexible-stretchable-reconfigurable CMOS electronics and their disruptive applications. Applications: Affordable for all personalized advanced healthcare technology and energy efficienct interactive electronics in decal form for defense, space, industrial and civilian applications. Strategy: Expansion of CMOS technology using heterogeneous integration of hybrid materials (classical crystalline material: Si/SiGe/Ge/GaN, amorphous oxide semiconductors, 1D/2D nanomaterials, amorphous metal, recyclable sustainbles materials like household papers), processes (state-of-the-art CMOS technology, inkjet, roll-to-roll and 3D printing, stereo, nanoimprint lithography and manufacutrable DIY techniques) and devices (planar and non-planar CMOS, wavy thin film transistors (TFTs), Si/Ge/III-V nanotubes, sensors, actuators, solar cells, thermoelectric generators, microbial fuel cells, and microlithium ion batteries). Tech transfer: Smart thermal patch, smart dental brace, medicinal organizer, smart parking garage tag, aqua sensor, paper watch, Virtual Fab™ educational module (limited access to http://fablab.kaust.edu.sa) EDUCATION University of Texas at Austin, Austin, Texas, USA, 2003-2005 Ph.D. in Electrical and Computer Engineering, December 2005 Dissertation Title: Advanced Nanofabrication Processes for Sub-45 nm CMOS Advisors: Prof. Baxter Womack and Prof. Dean Neikirk University of Texas at Austin, Austin, Texas, USA, 2003-2004 MSc in Electrical and Computer Engineering (Solid State Electronics), August 2004 Dissertation Title: Modeling and Simulation of Non-Planar 3D FinFETs, Advisor: Prof. Dean Neikirk University of Southern California, Los Angeles, California, USA, 2001-2002 MSc in Electrical Engineering (Electrophysics), December 2002 Bangladesh University of Engineering and Technology, Dhaka, Bangladesh, 1995-2000 B.Sc. in Electrical and Electronic Engineering, August 2000

PROFESSIONAL EXPERIENCE

Jul ‘17-present Professor, Electrical Engineering, KAUST Jul ‘13- Jun ‘17 Associate Professor, Electrical Engineering, KAUST Aug ‘09-Jun ‘13 Assistant Professor, Electrical Engineering, KAUST Jan ‘08- Aug ‘09 Program Manager, Emerging Technology, SEMATECH, Inc., Austin, TX, USA Nov ‘06-Jan ‘08 Process Integration Assignee, 22 nm Node – Non-planar MugFET CMOS, Texas

Instruments, Dallas, TX, USA Jan ‘06- Oct ‘06 Project Engineer, Front End Processes, SEMATECH, Inc., Austin, TX, USA

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HONORS AND SCHOLARLY AWARDS (Student or post-doc advisees are underlined) 1. 2016: Elected Fellow of American Physical Society (APS) “For contributions to exploration, evaluation,

and transition of planar and non-planar high-k/metal gate complementary metal oxide semiconductor electronics, silicon/silicon-germanium/III-V nanotube devices, and flexible, stretchable, reconfigurable complementary metal–oxide–semiconductor electronic systems.”

2. 2016: Top 5 Finalist, World Technology Award for Health and Medicine (http://www.wtn.net/summit-2016/finalists)

3. 2016: Fellow, World Technology Network (http://www.wtn.net/members) 4. 2016: Best Featured Article of 2015, Applied Physics Letters –for the paper by N. Alfaraj, A. M. Hussain,

G. A. Torres Sevilla, M. T. Ghoneim, J. P. Rojas, A. B. Aljedaani, and M. M. Hussain,“Functional integrity of

flexible n-channel metal─oxide─semiconductor field-effect transistors on a reversibly bistable platform, Appl. Phys. Lett. 107, 174101 (2015). [Cover Page and Feature Article]; http://dx.doi.org/10.1063/1.4934355)

5. 2016: 3rd Prize, Falling Walls 2015, KAUST awarded to PhD student Arwa Kutbee (Finalist in World Final in Berlin 9th November 2016)

6. 2016: 5th Prize, Falling Walls 2016, KAUST awarded to PhD student Galo Torres Sevilla 7. 2016: Invited Speaker, TEDx Saudi Arabia, KAUST, Saudi Arabia 2017 8. 2016: Invited Participant, Arab-American Frontiers of Science, Engineering and Medical Science

2016 (Organized by The National Academies of USA and US National Science Foundation) 9. 2016: IEEE Region 5 Outstanding Individual Achievement Award 2015 10. 2016: Top Paper 2015, Applied Physics Letters –for the paper by N. Alfaraj, A. M. Hussain, G. A. Torres

Sevilla, M. T. Ghoneim, J. P. Rojas, A. B. Aljedaani, and M. M. Hussain,“Functional integrity of flexible n-

channel metal─oxide─semiconductor field-effect transistors on a reversibly bistable platform, Appl. Phys. Lett. 107, 174101 (2015). [Cover Page and Feature Article]; http://dx.doi.org/10.1063/1.4934355)

11. 2016: Best Poster Award in Electronic Materials to PhD Student Arwa Kutbee, KAUST-NSF Research Conference on Electronic Materials, Devices and Systems 2016

12. 2016: Best Poster Award in Electron Devices to PhD Student Galo Torres Sevilla, KAUST-NSF Research Conference on Electronic Materials, Devices and Systems 2016

13. 2016: Fellow, Institute of Physics (IoP), United Kingdom (inducted February 2016) 14. 2015: Editor, IEEE Trans. Elect. Dev. (from November 2015) 15. 2015: Outstanding Young Texas Exes Award 2015 (Univ. Texas Austin Alumni Award) 16. 2015: Invited Participant, Arab-American Frontiers of Sensors 2015 (Organized by The National

Academies of USA and US National Science Foundation) 17. 2015: ASME Student Stipend to PhD Student Aftab Hussain, ASME IMECE 2015 18. 2015: 3rd Prize, Falling Walls 2015, KAUST awarded to PhD student Joanna Nassar 19. 2014: Scientific American Top 10 World Changing Ideas 2014 for the paper by J. E. Mink, R. Qaisi, B. E.

Logan, M. M. Hussain, “Energy Harvesting from Saliva in Micro-Sized Microbial Fuel Cells” NPG (Nature) Asia Materials, (2014) 6, e89; doi:10.1038/am.2014.1

20. 2014: Member, International Advisory Board, Energy Technology (Wiley-VCH) 21. 2014: Finalist, Falling Walls Lab 2014, PhD Student Aftab Hussain 22. 2014: Best Poster Award in Electron Devices to PhD Student Hossain Fahad, KAUST-NSF Research

Conference on Electronic Materials, Devices and Systems 2014 23. 2013: World Intellectual Property 2013 Silver Medal awarded to PhD Student Amal Al-Amri 24. 2013: Fellow, Institute of Nanotechnology, UK (Invited in March 2013)

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25. 2013: 3rd Prize, WEP Poster Competition awarded to PhD Student Aftab Hussain 26. 2012: DOW Chemical Sustainability and Innovation Challenge Award 2012 awarded to PhD Student

Salman Inayat for Thermoelectric Windows 27. 2012: IEEE Electron Devices Society Distinguished Lecturer (Selected in December 2012) 28. 2012: Best Poster Award, Electrophysics, Electrical Engineering, KAUST awarded to PhD Student Hossain

Fahad 29. 2011: Best Research Award, 5th Graduate Research Symposium 2011, KFUPM awarded to PhD Student

Jhonathan Rojas 30. 2011: 1st Prize, PhD Research Award, Physical Science and Engineering Division, KAUST awarded to PhD

Student Hossain Fahad 31. 2011: 2nd Prize, PhD Research Award, Physical Science and Engineering Division, KAUST awarded to PhD

Student Jhonathan Rojas 32. 2011: 1st Prize, PhD Research Award, Chemical and Life Science and Engineering Division, KAUST awarded

to PhD Student Justine Mink 33. 2010: Editor-in-Chief of Applied Nanoscience, Springer-NATURE 34. 2010: IEEE Senior Member – only 8% of nearly 400,000 IEEE members are Senior Members 35. 2005: Finalist, Best Teaching Assistantship Award 2005, University of Texas at Austin 36. 2003: Inducted Member, Engineering Honor Society (Tau Beta Pi). 37. 2003: Victor L. Hand Endowed Fellowship, University of Texas at Austin 38. 2000: 3rd Prize, Undergraduate Research Project, Bangladesh Univ. Engr. and Tech. PROFESSIONAL AFFILIATIONS Fellow, American Physical Society (2016) Fellow, World Technology Network (2016) Fellow, Institute of Physics (IoP), UK (2016) Fellow, Institute of Nanotechnology, UK (2013) Senior Member, Institute of Electrical and Electronic Engineers (IEEE) (2010) Member, American Academy of Arts and Science (AAAS) Member, Materials Research Society (MRS) Member, American Society of Mechanical Engineering (ASME) Teaching

Courses Semesters Students Uniqueness Solid State Devices Fabrication Lab Fall (2009 – present) 100+ HK/MG CMOS Flexible and Stretchable Electronics Spring (2017, TBC) 15 Comprehensive Integrated Microsystems Spring (2013 – present) 50 Tech transfer Advanced Nanoelectronics Spring (2010, every alternate year) 40 Contemporary

Virtual Fab™: Conceptualized and developed a fully online based virtual mode fabrication facility where trainees can be trained on various equipment related to CMOS technology in virtual cleanroom environment. Limited access through KAUST: http://fablab.kaust.edu.sa

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PUBLICATIONS Peer-Reviewed Journal Articles (*corresponding author; student or post-doc advisees are underlined) Publications at KAUST

2017 (13) 1) N. Qaiser, S. M. Khan, M. Nour, M. U. Rehman, J. P. Rojas, M. M. Hussain*, “Mechanical Response of Spiral

Interconnect Arrays for Highly Stretchable Electronics”, Appl. Phys. Lett. (Just Accepted) 2) R. R. Bahabry, A. T. Kutbee, S. M. Khan, A. C. Sepulveda, I. Wicaksono, M. Nour, N. Wehbe, A. S. Almislem, M.

T. Ghoneim, G. A. Torres Sevilla, A. Syed, S. F. Shaikh, M. M. Hussain*, “Corrugation Architecture Enabled Ultra-Flexible Wafer-Scale High-Efficiency Mono-crystalline Silicon Solar Cell”, Adv. Energy Mater. (Just Accepted)

3) D. Singh, A. T. Kutbee, M. T. Ghoneim, A. M. Hussain, M. M. Hussain*, “Strain Induced Rolled Thin Films for Lightweight Tubular Thermoelectric Generators”, Adv. Mater. Tech. (Just Accepted)

4) A. N. Hanna, A. T. Kutbee, R. C. Subedi, B. Ooi, M. M. Hussain*, “Wavy Architecture Thin Film Transistor for Ultra-High Resolution Flexible Display”, Small https://doi.org/10.1002/smll.201703200 [Inside Cover Article] Media: Nature Middleeast: “Wavy transistors for next-generation display devices”, To read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2017.142 Nanowerk: “Thin film transistors get wavy”, To read more: https://www.nanowerk.com/spotlight/spotid=48631.php

5) S. F. Shaikh, M. T. Ghoneim, R. R. Bahabry, S. M. Khan, M. M. Hussain*, “Modular Lego-Electronics”, Adv. Mater. Tech. https://doi.org/10.1002/admt.201700147 Media: Tech Xplore: “'Lego-electronics' offer simple way to assemble integrated circuits”, To read more: https://techxplore.com/news/2017-09-lego-electronics-simple-circuits.html Futurism: “New Lego-Inspired Electronics Could Make the Field More Accessible and Efficient”, To read more: https://futurism.com/new-lego-inspired-electronics-could-make-the-field-more-accessible-and-efficient/ Nanowerk: “Modular 'Lego' electronics”, To read more: https://www.nanowerk.com/spotlight/spotid=48418.php

6) W. Park, J. Min, S. Shaikh, M. M. Hussain*, “Stable MoS2 FETs using TiO2 Interfacial Layer at Metal/MoS2 Contact”, physica solidi status A https://doi.org/10.1002/pssa.201700534 [Cover Article]

7) A. C. Cavazos Sepulveda, M.S. Diaz Cordero, A. A. A. Carreño, J. M. Nassar, M. M. Hussain*, “Ultra-Stretchable and Foldable Silicon Based Electronics”, Appl. Phys. Lett. 110, 134103 (2017). Media: Phys.org Feature: “Foldable silicon-based electronics overcome fragility problem”, Read more: https://phys.org/news/2017-04-foldable-silicon-based-electronics-fragility-problem.html

8) A. T. Kutbee, R. R. Bahabry, K. O. Alamoudi, M. T. Ghoneim, M. D. Cordero, A. S. Almuslem, A. Gumus, E. M. Diallo, J. M. Nassar, A. M. Hussain, N. M. Khachab, M. M. Hussain*, “Smart Personalized Dental Brace With Laser Based Bone Regenration And Enhanced Enamel Healthcare”, npj Flex. Elect. [DOI: 10.1038/s41528-017-0008-7] Media: Daily Mail: “Now that's a blinding smile! New 3D-printed braces will have two LED lights and one non-toxic lithium battery on each tooth to cut time and cost of straightening”, Read more: http://www.dailymail.co.uk/health/article-5015567/New-3D-printed-braces-include-lights-batteries.html R&D Magazines: “Smart Dental Aids Use Flexible Batteries, LEDs”, Read more: https://www.rdmag.com/article/2017/10/smart-dental-aids-use-flexible-batteries-leds Nature Middle East: “Dental braces that light up”, Read more: https://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2017.156 Nanowerk: “Flexible microbattery enables smart dental braces”, To read more: https://www.nanowerk.com/spotlight/spotid=48660.php

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3ders.org: “Saudi researchers propose 3D printed braces with LEDs and batteries for faster teeth alignment”, Read more: http://www.3ders.org/articles/20171025-saudi-researchers-propose-3d-printed-braces-with-leds-and-batteries-for-faster-teeth-alignment.html TechXplore: “Flexible batteries a highlight for smart dental aids”, Read more: https://techxplore.com/news/2017-10-flexible-batteries-highlight-smart-dental.html

9) A. Gumus, A. Alam, A. Hussain, K. Mishra, I. Wicaksono, G. Torres Sevilla, S. F. Shaikh, M. Diaz, S. Velling, M. T. Ghoneim, S. M. Ahmed, M. M. Hussain*, “Expendable Polymer Enabled Wirelessly Destructible High Performance Solid State Electronics”, Adv. Mater. Tech. 1600264 (2017). Media: Fox News Tech Talk: http://video.foxnews.com/v/5353705112001 IEEE Spectrum: “Self-Destructing Gadgets Made Not So Mission Impossible”, Read more: http://spectrum.ieee.org/tech-talk/consumer-electronics/gadgets/selfdestructing-gadgets-made-not-so-mission-impossible Fox News: “Self-destructing phones are finally a reality”, Read more: http://www.foxnews.com/tech/2017/02/13/self-destructing-phones-are-finally-reality.html Yahoo Tech: “Mission possible: Self-destructing phones are now a reality”, Read more: https://www.yahoo.com/tech/mission-possible-self-destructing-phones-134642092.html The Sunday Times: “Self-destroying phone will suit James Bond and Joe Public”, Read more: http://www.thetimes.co.uk/article/self-destroying-phone-will-suit-james-bond-and-joe-public-q0f3h333h The Autralian: Read more: “Self-destroying phone will suit James Bond and Joe Public”, http://www.theaustralian.com.au/business/technology/selfdestroying-phone-will-suit-james-bond-and-joe-public/news-story/4fa79c5b6195c2931eac6f163957a058 Daily Mail (UK): “Move over James Bond: Scientists create a self-destructing material that can obliterate a phone in 10 SECONDS”, Read more: http://www.dailymail.co.uk/sciencetech/article-4220394/Self-destructing-material-obliterate-smartphone.html Time and Space (Japan): http://time-space.kddi.com/digicul-column/world/20170210/index.html CSO (Australia): “A new gadget can give phones a self-destruct option”, Read more: http://www.cso.com.au/article/614077/new-gadget-can-give-phones-self-destruct-option/?utm_medium=rss&utm_source=sectionfeed Nature Middle East: “Mobile lost or stolen? Destroy it remotely”, Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2017.78 Latinos Health: “Self-Destructing Phone: One Of The Rare Inventions Of The Modern Era!”, Read more: http://www.latinoshealth.com/articles/25513/20170215/self-destructing-phone-one-of-the-rare-inventions-of-the-modern-era.htm Deccan Chronicle (India): “Self-destructing phones soon to be reality”, Read more: http://www.deccanchronicle.com/technology/mobiles-and-tabs/100217/self-destructing-phones-soon-to-be-reality.html Digital Trend: “Forget wiping your phone remotely, this tech lets you destroy its innards instead”, Read more: http://www.digitaltrends.com/cool-tech/self-destructing-phone/ BGR: “Self-destructing phones are finally a reality”, Read more: http://bgr.com/2017/02/09/new-phone-who-dis-self-destructing-phone/ Internaitonal Business Times: “Mission possible: Self-destructing phones are now a reality”, Read more: http://www.ibtimes.co.uk/mission-possible-self-destructing-phones-are-now-reality-1605897 Hardcop: “Self-destructing phone – now a reality”, Read more: http://www.hardocp.com/news/2017/02/12/selfdestructing_phones_now_reality AajTak (India): http://aajtak.intoday.in/story/self-destructing-phone-now-a-reality-1-911497.html

10) A. S. Almuslem, A. N. Hanna, T. Yapici, N. Wehbe, E. M. Diallo, A. T. Kutbee, R. R. Bahabry, M. M. Hussain*, “Water Soluble Nano-scale Transient Material Germanium Oxide For Zero Toxic Waste Based Environmentally Benign Nano-Manufacturing”, Appl. Phys. Lett. 110, 074103 (2017)

11) J. M. Nassar, M. M. Hussain*, “Impact of Physical Deformation on Electrical Performance of Paper-based Sensors”, IEEE Trans. Elect. Dev. 99, 1–8 (2017)

12) M. Ghoneim, M. M. Hussain*, “Highly Manufacturable Deep (Sub-millimeter) Etching Enabled High Aspect Ratio Complex Geometry Lego Like Silicon Electronics”, Small 13(16), 1601801 (2017). [Frontispiece]

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Media: Nature Middle East: “Lego-like electronics”, Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2017.34 Nanowerk: “Lego like silicon electronics fabricated with hybrid etching masks”, Read more: http://www.nanowerk.com/spotlight/spotid=45763.php

13) J. P. Rojas, D. Singh, S. B. Inayat, G. A. Torres Sevilla, H. M. Fahad, M. M. Hussain*, “Micro and Nano-Engineering Enabled New Generation of Thermoelectric Generator Devices and Applications”, ECS J. Solid State Sci. Technol. 6(3), N3036-N3044, 2017 [Invited Review]

2016 (17)

14) S. F. Shaikh, M. T. Ghoneim, G. A. Torres Sevilla, J. M. Nassar, A. M. Hussain, M. M. Hussain*, “Integration Strategy For Flexible Electronic Systems For Internet of Everything Applications”, IEEE Trans. Elect. Dev. Invited in Special Issue on Flexible Electronics [Just Accepted]

15) J. M. Nassar, K. Mishra, K. Lau, A. A. Aguirre-Pablo, M. M. Hussain*, “Recyclable Non-functionalized Paper Based Ultra-Low Cost Wearable Health Monitoring System”, Adv. Mater. Tech. http://dx.doi.org/10.1002/admt.201600228 [Back Cover Page] Media: Chemical & Engineering News, “Tracking health with paper electronics”, Read more: http://cen.acs.org/articles/95/i5/Tracking-health-paper-electronics.html?type=paidArticleContent IEEE Spectrum: “'Paper Watch' Aims to Democratize Fitness Trackers”, Read more: http://spectrum.ieee.org/the-human-os/biomedical/diagnostics/paper-watch-aims-to-democratize-personal-health-monitoring Wearables: “This Paper Watch could be an affordable fitness tracker alternative”, Read more: https://www.wareable.com/fitness-trackers/paper-watch-fitness-tracker-kaust-3797 Geeky Gadgets: “Paper Watch Is A 3D Printed Affordable Smartwatch”, Read more: http://www.geeky-gadgets.com/paper-watch-is-a-3d-printed-affordable-smartwatch-17-01-2017/ Nanowerk: “Wearable health monitor based on household paper”, Read more: http://www.nanowerk.com/spotlight/spotid=45875.php 3ders: “'Paper Watch' combines 3D printing and household materials in cheap alternative to Apple Watch”, Read more: http://www.3ders.org/articles/20170114-paper-watch-combines-3d-printing-and-household-materials-in-cheap-alternative-to-apple-watch.html

16) J. P. Rojas, D. Conchouso, A. Arevalo, D. Singh, I. G. Foulds, M. M. Hussain*, “Paper-Based Origami Flexible and Foldable Thermoelectric Nanogenerator”, Nano Energy 31, 296–301 (2017) Media: Nanowerk: “Flexible thermoelectric nanogenerator on paper”, Read more: http://www.nanowerk.com/spotlight/spotid=45237.php

17) Y. Yao, K.-T. Lee, X. Sheng, N. A. Batara, N. Hong, J. He, L. Xu, M. M. Hussain, H. A. Atwater, N. S. Lewis, R. G. Nuzzo, J. A. Rogers, “Porous Nanomaterials for Ultrabroadband Omnidirectional Anti-Reflection Surfaces with Applications in High Concentration Photovoltaics” Adv. Energy. Mater. DOI: 10.1002/aenm.201601992

18) K.-T. Lee, Y. Yao, J. He, B. Fisher, X. Sheng, M. Lumb, L. Xu, M. A. Anderson, S. Han, Y. Kang, A. Gumus, R. R. Bahabry, J. W. Lee, U. Paik, N. D. Bronstein, A. P. Alivisatos, M. Meitl, S. Burroughs, M. M. Hussain, J. C. Lee, R. G. Nuzzo, J. A. Rogers, “Concentrator Photovoltaic Module Architectures With Capabilities for Capture and Conversion of Full Global Solar Radiation”, Proc. Natl. Aca. Sci. doi: 10.1073/pnas.1617391113

19) J. P. Rojas, D. Singh, D. Conchouso, A. Arevalo, I. G. Foulds, M. M. Hussain*, “Stretchable Helical Architecture Inorganic-Organic Hetero Thermoelectric Generator”, Nano Energy, 30, 691–699 (2016) Media: Phys.org: “Deformable thermoelectric materials add a new twist to the design of energy-scavenging devices”, Red more: https://phys.org/news/2017-03-deformable-thermoelectric-materials-energy-scavenging-devices.html Nanowerk: “A fully stretchable energy harvester for thermal waste”, Read more: http://www.nanowerk.com/spotlight/spotid=45057.php

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Science and technology research news: “Stretching Toward Energy Efficiency”, Read more: http://www.scienceandtechnologyresearchnews.com/stretching-toward-energy-efficiency/

20) G. A. Torres Sevilla, M. M. Hussain*, “Printed Organic And Inorganic Electronics: Devices To Systems”, IEEE J. Emerging and Selected Topics in Circuits and Systems 99, 1–14 [Invited]

21) G. A. Torres Sevilla, M. D. Cordero, J. M. Nassar, A. N. Hanna, A. T. Kutbee, A. Arevalo, M. M. Hussain*, “Decal Electronics: Printable Packaged With 3D Printing High-Performance Flexible CMOS Electronic Systems”, Adv. Mater. Tech. DOI: 10.1002/admt.201600175 [Inside Front Cover] Media: Chemical and Engineering News (C&EN): “Sticking it to the internet of things”, Read more: https://cen.acs.org/articles/94/web/2016/10/Sticking-internet-things.html Nature Middle East: “Stick-on transistors and sensors”, Read more: https://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2016.185 Daily Mail (UK): “The smart tattoos that work as a sensor on any surface: E-stickers monitor everything from breathing to tyre pressure”, Read more: http://www.dailymail.co.uk/sciencetech/article-4084292/From-measuring-tyre-pressure-checking-breathing-pattern-Revolutionary-e-sticker-prototype-monitor-surface.html#ixzz4V41t4M28 Advanced Science News: “Decal electronics: printable packaging”, Read more: http://www.advancedsciencenews.com/decal-electronics-printable-packaging-with-3d-printing-high-performance-flexible-cmos-electronic-systems/ Futurism: “This New Wearable Health Monitor Can Stick to Almost Anything”, Read more: https://futurism.com/this-new-wearable-health-monitor-can-stick-to-almost-anything/ Nanowerk: “3D-printed decal electronics for the Internet-of-Everything”, Read more: http://www.nanowerk.com/spotlight/spotid=44821.php New Electronics: “Process to print flexible e-stickers”, Read more: http://www.newelectronics.co.uk/electronics-news/process-to-print-flexible-e-stickers/149821/ 3D print: “KAUST Research Team 3D Prints Small Silicon-Based Computers to Use as Non-Invasive Health Monitor E-Stickers”, Read more: https://3dprint.com/160895/silicon-based-computer-e-stickers/ Controlled Enviroment: “Flexible Electronics Take On Different Shapes”, Read more: http://www.cemag.us/news/2017/01/flexible-electronics-take-different-shapes

22) A. M. Hussain, M. M. Hussain*, “Deterministic Integration of Out-of-Plane Sensor Arrays for Flexible Electronic Applications”, Small 12(37), 5141–5145 (2016) [Frontispiece] Media: Nanowerk: A nanotechnologist’s take on “two sides of the same coin”, Read more: http://www.nanowerk.com/spotlight/spotid=44040.php Nature Middle East: “Flexible sensors for skin, brain”, Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2016.120

23) A. M. Hussain, S. F. Shaikh, M. M. Hussain*, “Design criteria for XeF2 enabled deterministic transformation of bulk silicon (100) into flexible silicon layer”, AIP Adv. 6, 075010 (2016)

24) M. T. Ghoneim, N. Alfaraj, G. A. Torres Sevilla, H. M. Fahad, M. M. Hussain*, “Out-of-Plane Strain Effects on Physically Flexible FinFET CMOS”, IEEE Trans. Elect. Dev. 63(7), 2657–2664 (2016).

25) J. M. Nassar, J. P. Rojas, A. M. Hussain, M. M. Hussain*, “From Stretchable to Reconfigurable Inorganic Electronics”, Extr. Mech. Lett. doi:10.1016/j.eml.2016.04.011. [Invited Review]

26) A. T. Kutbee, M. T. Ghoneim, S. M. Ahmad, M. M. Hussain*, “Free-form Flexible Lithium-Ion Microbattery”, IEEE Trans. Nanotechnol. 15(3), 402–408 (2016).

27) A. N. Hanna, A. M. Hussain, H. Omran, S. Alshareef, K. N. Salama, M. M. Hussain*, “Wavy Channel TFT Based Digital Circuits”, IEEE Trans. Elect. Dev. 63(4), 1550 (2016).

28) G. A. Torres Sevilla, A. S. Almuslem, A. Gumus, A. M. Hussain, M. E. Cruz, M. M. Hussain*, “High performance high-κ/metal gate CMOS circuit element on flexible silicon”, Appl. Phys. Lett. 108, 094102 (2016).

29) J. M. Nassar, M. D. Cordero, A. T. Kutbee, M. A. Karimi, G. A. Torres Sevilla, A. M. Hussain, A. Shamim, M. M. Hussain*, “Paper Skin Multi-Sensory Platform for Simultaneous Environmental Monitoring”, Adv. Mater. Tech. (Wiley) doi: 10.1002/admt.201600004 (2016). [Cover Page]

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Media: Washington Post: Scientists made cutting edge ‘smart skin’ with Post-its, foil and tape, Read more: https://t.co/WCFI5I7QvL The Daily Mail: The smart 'skin' made from foil and sticky tape: Sensor uses everyday items to detect changes in touch and pressure, Read more: http://www.dailymail.co.uk/sciencetech/article-3463983/The-smart-skin-foil-sticky-tape-Sensor-uses-everyday-items-detect-changes-touch-pressure.html IEEE Spectrum: Paper skin mimics the real thing, Read more: http://spectrum.ieee.org/tech-talk/biomedical/devices/paper-skin-mimics-the-real-thing Materials View: Sensitive skin – paper-based multifunctional artificial skin, Read more: http://www.materialsviews.com/sensitive-skin-paper-based-multifunctional-artificial-skin/ Nature Middle East: Kitchen Lab: make your own artificial skin, Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2016.26 Digital Trends: This artificial skin can sense touch and made with tinfoil and sticky notes, Read more: http://www.digitaltrends.com/cool-tech/household-paper-skin/ In Compliance Magazine: Artificial Skin Made from Household Materials Could Transform Medicine, Robotics, and Education, Read more: http://incompliancemag.com/artificial-skin-made-from-household-materials/ IDTechX: Paper skin sensors for environmental monitoring, Read more: http://www.printedelectronicsworld.com/articles/9132/paper-skin-sensors-for-environmental-monitoring dna: The new smart “paper skin” can transform robotics, Read more: http://www.dnaindia.com/scitech/report-this-new-smart-paper-skin-may-transform-robotics-2180829 Medical Daily: Highly Sensitive Artificial Human Skin Created From Common Household Goods Could Change Robotics And Medicine, Read more: http://www.medicaldaily.com/artificial-skin-household-goods-robotics-374723 Business Standard: 'Paper skin' sensing device with simple kitchen materials developed, Read more: http://www.business-standard.com/article/news-ians/paper-skin-sensing-device-with-simple-kitchen-materials-developed-116022200419_1.html Tech Times: Artificial Skin Made From Recyclable Materials May Transform Medicine And Robotics, Read more: http://www.techtimes.com/articles/135817/20160223/artificial-skin-made-from-recyclable-materials-may-transform-medicine-and-robotics.htm The TeCake: Artificial skin Made having same sensory functions as human skin, Read more: http://www.tecake.com/artificial-skin-made-sensory-functions-human-skin/ Times of India: New smart skin may transform medicine, robotics, Read more: http://timesofindia.indiatimes.com/life-style/health-fitness/health-news/New-smart-skin-may-transform-medicine-robotics/articleshowprint/51078554.cms Healio: ‘Smart,’ recyclable artificial skin developed, Read more: http://www.healio.com/orthotics-prosthetics/prosthetics/news/online/%7Bc64c6698-f4b0-4e73-8b7d-ba28d41a3fcb%7D/smart-recyclable-artificial-skin-developed

30) A. N. Hanna, A. M. Hussain, Hesham Omran, Sarah Alshareef, Khaled N. Salama, M. M. Hussain*, “Amorphous Zinc Oxide Integrated Wavy Channel Thin Film Transistor Based High Performance Digital Circuits”, IEEE Elect. Dev. Lett. 37(2), 193-196 (2016).

2015 (16)

31) M. T. Ghoneim, H. M. Fahad, A. M. Hussain, J. P. Rojas, G. A.Torres Sevilla, N. Alfaraj, E. B. Lizardo, M. M. Hussain*, “Enhanced cooling in mono-crystalline ultra-thin silicon by embedded micro-air channels”, AIP Adv. 5, 127115 (2015).

32) A. M. Mayet, A. M. Hussain, M. M. Hussain*, “3-Terminal Nanoelectromechanical Switch Based On Tungsten Nitride – An Amorphous Metallic Material”, Nanotechnology 27, 035202 (2016).

9

Media: Lab Talk in nanotechweb: “Sub-1 volt three terminal nanoelectromechanical switch”, Read more: http://nanotechweb.org/cws/article/lab/63596 Nanotechnology spotlight in nanowerk: “Record-breaking performance by three-terminal nanoelectromechanical switch with amorphous metal”, Read more: http://www.nanowerk.com/spotlight/spotid=42066.php

33) A. M. Hussain, M. M. Hussain*, “CMOS Technology Enabled Flexible and Stretchable Electronics for Internet of Everything Applications”, Adv. Mater. DOI: 10.1002/adma.201504236 (2015). [Invited Review Paper for Special Issue]

34) N. Alfaraj, A. M. Hussain, G. A. Torres Sevilla, M. T. Ghoneim, J. P. Rojas, A. B. Aljedaani, M. M. Hussain*, “Functional integrity of flexible n-channel metal─oxide─semiconductor field-effect transistors on a reversibly bistable platform, Appl. Phys. Lett. 107, 174101 (2015). [Cover Page and Feature Article] [Top Paper 2015 – Editor’s Pick] [Nanotechnology Spotlight in nanowerk: “Reversibly bistable materials could revolutionize flexible electronics”, Read more: http://www.nanowerk.com/spotlight/spotid=41677.php Research highlight in Nature Middle East: “Stretchable, rollable transistors for health-monitoring bracelets”, Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2015.200]

35) A. M. Hussain, F. A. Ghaffar, S. I. Park, J. A. Rogers, A. Shamim, M. M. Hussain*, “Metal/Polymer Based Stretchable Antenna for Constant Frequency Far-Field Communication in Wearable Electronics”, Adv. Funct. Mater. 25(42), 6565–6575 (2015). [Cover Article] [Tech Talk in IEEE Spectrum: “Stretchable Antenna Boosts Range for Wearable Devices”, Read more: http://spectrum.ieee.org/tech-talk/consumer-electronics/portable-devices/stretchable-antenna-boosts-range-for-wearable-devices Research Highlight in Nature Middle East: “Antenna for wireless communications now stretchable”, Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2015.189 Nanotechnology Spotlights in nanowerk: “A stretchable far-field communication antenna far wearable electronics”, Read more: http://www.nanowerk.com/spotlight/spotid=41569.php]

36) B.-J. Huang*, P.-C. Hsu, R.-J. Tsai, M. M. Hussain, “A thermoelectric generator using loop heat pipe and design match for maximum-power generation”, Appl. Therm. Engr. 91, 1082–1091 (2015).

37) A. M. Hussain, N. Wehbe, M. M. Hussain*, “SiSn Diodes: Theoretical Analysis and Experimental Verification”, Appl. Phys. Lett. 107, 082111 (2015).

38) J. P. Rojas, M. M. Hussain*, “The Role of Microfabrication and Nanotechnology in the Development of Microbial Fuel Cells”, Energy Tech. 2(10), 996–1010 (2015). [Cover Article and Invited Review Paper]

39) M. T. Ghoneim, M. M. Hussain*, “Study of harsh environment operation of flexible ferroelectric memory integrated with PZT and silicon fabric”, Appl. Phys. Lett. 107, 052904 (2015).

40) M. T. Ghoneim, M. M. Hussain*, “Review on Physically Flexible Nonvolatile Memory for Internet of Everything Electronics”, Electronics, 4(3), 424-479 (2015) [Invited Review Paper].

41) J. P. Rojas, G. A. Torres Sevilla, N. Alfaraj, M. T. Ghoneim, A. T. Kutbee, A. Sridharan, M. M. Hussain*, “Non-Planar Nano-Scale Fin Field Effect Transistors on Textile, Paper, Wood, Stone, and Vinyl via Soft Material-Enabled Double-Transfer Printing”, ACS Nano, 9(5), 5255–5263 (2015). [Research Highlight in Nature Middle East: “Wearable, implantable sensors possible with flexible transistors”, Read more: http://www.natureasia.com/en/nmiddleeast/article/10.1038/nmiddleeast.2015.92 Nanotechnology Spotlight in nanowerk: “Nanoelectronics on textile, paper, wood and stone”, Read more: http://www.nanowerk.com/spotlight/spotid=40717.php#]

42) A. N. Hanna, A. M. Hussain, M. T. Ghoneim, J. P. Rojas, G. A. Torres Sevilla, M. M. Hussain*, “Wavy Channel TFT Architecture for High Performance Oxide Based Displays”, ECS Trans. 67, 191-198 (2015). [Invited Paper]

10

43) A. N. Hanna, H. M. Fahad, M. M. Hussain*, “InAs/Si Hetero-Junction Nanotube Tunnel Transistors”, (Nature) Sci. Rep. 5, 9843, doi:10.1038/srep09843 (2015). [Technology Update in nanotechweb: “Nanotube TFETs in new tunneling current record”, Read more: http://nanotechweb.org/cws/article/tech/61100]

44) M. T. Ghoneim, M. A. Zidan, M. Y. Alnassar, A. N. Hanna, J. Kosel, K. N. Salama, M. M. Hussain*, “Thin PZT Based Ferroelectric Capacitors on Flexible Silicon for Non-Volatile Memory Applications”, Adv. Electron. Mater. 1(6) doi: 10.1002/aelm.201500045 (2015). [Cover Page] [Nanotechnology Spotlight in nanowerk: “Flexible FeRAM fabricated with CMOS-compatible approach”, Read more: http://www.nanowerk.com/spotlight/spotid=40634.php Technology update in nanotechweb: “Ferroelectric capacitor goes flexible”, Read more: http://nanotechweb.org/cws/article/tech/61758]

45) A. M. Hussain, E. B. Lizardo, G. A. Torres Sevilla, J. M. Nassar, M. M. Hussain*, “Ultra-Stretchable and Flexible Copper Interconnect Based Smart Patch for Adaptive Thermotherapy”, Adv. Healthcare Mater. 4, 665–673 (2015). [Frontispiece] [Top 5% most influential paper among 2.7M papers] [Tech Talk in IEEE Spectrum: “Skin Patches Enable Smartphone-Controlled Pain Relief”, Read more: http://spectrum.ieee.org/tech-talk/biomedical/devices/skin-patches-enable-smartphonecontrolled-pain-relief] Highlighted in nanowerk as Spotlight: “Thermotherapy for pain management with a smart thermal patch”, Read more: http://www.nanowerk.com/spotlight/spotid=38394.php Highlighted in nanotechweb as Technology Update: “Stretchy copper patch provides pain relief”, Read more: http://nanotechweb.org/cws/article/tech/59599]

46) A. N. Hanna, M. M. Hussain*, “Si/Ge Hetero-structure Nanotube Tunnel Field Effect Transistor”, J. Appl. Phys. 117, 014310 (2015).

2014 (18)

47) A. M. Hussain, N. Singh, H. Fahad, K. Rader, U. Schwingenschlögl, M. M. Hussain*, “Exploring SiSn As A Performance Enhancing Semiconductor: A Theoretical and Experimental Approach”, J. Appl. Phys. 116, 224506 (2014).

48) H. M. Fahad, C. Hu, M. M. Hussain*, “Simulation Study of a 3D Device Integrating FinFET and UTBFET”, IEEE Trans. Elect. Dev. 62(1), 83-87 (2015).

49) A. Diab, G. Torres Sevilla, S. Cristoloveanu, M. M. Hussain*, “Room to High Temperature Measurements of Flexible SOI FinFETs with Sub-20 nm Fins”, IEEE Trans. Elect. Dev. 61(12), 3978-3984 (2014).

50) M. T. Ghoneim, J. P. Rojas, C. D. Young, G. Bersuker, M. M. Hussain*, “Electrical analysis of high-κ/metal gate metal oxide semiconductor capacitors on flexible bulk mono-crystalline silicon (100)”, IEEE Trans. Reliab. 64(2), 579-585 (2015).

51) J. P. Rojas, A. Carreno, I. G. Foulds, M. M. Hussain*, “Design and Characterization of Ultra-Stretchable Monolithic Silicon Fabric”, Appl. Phys. Lett. 105, 154101 (2014). [Highlighted in nanowerk as Spotlight: Ultra-stretchable silicon for flexible electronics, Read more: http://www.nanowerk.com/spotlight/spotid=37799.php Highlighted in nanotechweb as Technology Update: “Silicon gets stretched”, Read more: http://nanotechweb.org/cws/article/tech/59054]

52) A. Diab, G. A. Torres Sevilla, M. T. Ghoneim, M. M. Hussain*, “High Temperature Study of Flexible Silicon-On-Insulator Fin Field-Effect Transistors”, Appl. Phys. Lett. 105, 133509 (2014). [Highlighted in nanotechweb as Technology Update: Flexible FinFETs work at high temperatures, Read more: http://nanotechweb.org/cws/article/tech/58868]

53) G. A. Torres Sevilla, M. T. Ghoneim, H. Fahad, J. P. Rojas, A. M. Hussain, M. M. Hussain*, “Flexible Nano-Scale High-Performance FinFETs”, ACS Nano 8(10), pp 9850–9856 (2014). [Highlighted in nanotechweb as Technology Update: FinFETs go flexible, Read more: http://nanotechweb.org/cws/article/tech/58573

11

Highlighted in nanowerk as Spotlight: Flexible high-performance FinFETs with a bending radius of 0.5 mm, Read more: Flexible high-performance FinFETs with a bending radius of 0.5 mm http://www.nanowerk.com/spotlight/spotid=37272.php#ixzz3FvY9EDZF Highlighted in MIT Tech Review Pan Arab: The Road to Flexible Electronics, Read more: http://techreviewpanarab.com/en/computing/the-road-to-flexible-electronics/]

54) A. N. Hanna, M. T. Ghoneim, R. R. Bahabry, A. M. Hussain, H. M. Fahad, M. M. Hussain*, “Area and Energy Efficient High Performance ZnO Wavy Channel Thin Film Transistor”, IEEE Trans. Elect. Dev. 61(9), 3223–3228 (2014).

55) J. P. Rojas, W. Alqarni, M. M. Hussain*, “Power Degradation In Series Connected Multiple Single Feeding 40 µL Microbial Fuel Cells”, Energy Tech. 2(8), 673–676 (2014). [Cover page]

56) M. T. Ghoneim, M. A. Zidan, K. N. Salama, M. M. Hussain*, “Towards Neuromorphic Electronics: Memristors on Foldable Silicon Fabric”, Microelectronics Engr. 45(11), 1392–1395 (2014).

57) J. M. Nassar, A. M. Hussain, J. P. Rojas, M. M. Hussain*, “Low-Cost High Quality Crystalline Germanium Based Flexible Devices”, Phys. Status Solidi (RRL) 8(9), 794–800 (2014).

58) R. M. Qaisi, C. E. Smith, M. M. Hussain*, “Atmospheric pressure chemical vapor deposition (APCVD) grown bi-layer graphene transistor characteristics at high temperature”, Phys. Status Solidi RRL, 8(7), 621–624 (2014). [Cover page]

59) A. M. Hussain, H. M. Fahad, N. Singh, G. A. Torres Sevilla, U. Schwingenschlögl, M. M. Hussain*, “Tin – An unlikely ally for silicon field effect transistors?”, Phys. Status Solidi RRL 8(4), 332–335 (2014). [Cover page]

60) M. T. Ghoneim, A. Kutbee, F. Ghodsi Nasseri, G. Bersuker, M. M. Hussain*, “Mechanical Anomaly Impact on Metal-Oxide-Semiconductor Capacitors on Flexible Silicon Fabric”, Appl. Phys. Lett. 104, 234104 (2014).

61) G. A. Torres Sevilla, C. E. Smith, J. P. Rojas, H. M. Fahad, M. M. Hussain*, “Flexible and Transparent Silicon Based Sub-100 nm Non-planar 3D FinFET CMOS for Brain-inspired Computation” Adv. Mater. 26, 2794–2799 (2014). [Cover page] [Ranked among top 5% articles published in Adv. Mater.] [Highlighted in Nanowerk as Spotlight: Flexible silicon-on-polymer sub-20 nm FinFETs without performance loss, Read more: http://www.nanowerk.com/spotlight/spotid=34727.php Highlighted in Materials 360 Online, Materials Research Society (MRS): Flexible Electronics without the Compromise, Read more: http://www.materials360online.com/newsDetails/45052;jsessionid=EA72832DF939FA057303F02180893A6B Highlighted in nanotechweb: Brain structure inspires FinFET, Read more: http://nanotechweb.org/cws/article/tech/56619 Featured as Industry Buzz in Advanced Substrate News: Industry’s first flexible FinFET uses SOI wafers http://www.advancedsubstratenews.com/2014/04/industrys-first-flexible-finfet-uses-soi-wafers/]

62) J. P. Rojas, G. A. Torres Sevilla, S. B. Inayat, A. M. Hussain, M. T. Ghoneim, S. Ahmed, M. M. Hussain*, “Transformational Silicon Electronics” ACS Nano, 8(2), 1468–1474 (2014). [Highlighted in Nanowerk as Spotlight: Flexible and semitransparent silicon electronics, Read more: http://www.nanowerk.com/spotlight/spotid=34351.php Technology update in Nanotechweb: Waste not want not: recycling silicon electronics, Read more: http://nanotechweb.org/cws/article/tech/56259 Latest News in C&EN: Hard Silicon Wafers Yield Flexible Electronics, Read more: http://cen.acs.org/articles/92/web/2014/02/Hard-Silicon-Wafers-Yield-Flexible.html]

63) J. E. Mink, R. Qaisi, B. E. Logan, M. M. Hussain*, “Energy Harvesting from Saliva in Micro-Sized Microbial Fuel Cells” NPG (Nature) Asia Mater. 6, e89 (2014). doi:10.1038/am.2014.1 [Selected by Scientific American as One of the Top 10 World Changing Ideas 2014, “Spit Fired Fuel Cells”, Read more: http://www.scientificamerican.com/editorial/world-changing-ideas-2014/] Highlighted in IEEE Spectrum as Tech Talk, “Tiny Microbial Fuel Cell Runs On Spit”, Read more: http://spectrum.ieee.org/tech-talk/green-tech/fuel-cells/tiny-microbial-fuel-cell-runs-on-spit Highlighted in Wall Street Journal as R&D Feature, “Save Your Spit for Fuel”, Read more: http://online.wsj.com/news/articles/SB10001424052702304810904579507671020366130

12

Highlighted in Physics World as “Saliva-powered microbial fuel cell built”, Read more: http://physicsworld.com/cws/article/news/2014/apr/02/saliva-powered-microbial-fuel-cell-built Highlighted in Nanowerk as Spotlight, “Spit on it - Micro fuel cell powered by saliva”, Read more: http://www.nanowerk.com/spotlight/spotid=34901.php#ixzz2wsdGhb8Q Highlighted in Nanotechweb as “Saliva powers a MFC”, Read more: http://nanotechweb.org/cws/article/tech/56782 Feature Article in Co.Exist as “Could Saliva Be The Next Great Renewable Resource?” , Read more: http://www.fastcoexist.com/3028846/could-saliva-be-the-next-great-renewable-resource Feature Article in Vocativ as “Saliva as Fuel? It’s Not Just Science Fiction” http://www.vocativ.com/culture/health-culture/saliva-fuel-just-science-fiction/ Highlighted in Real Clear Science as “Saliva-Powered Microbial Fuel Cell” http://www.realclearscience.com/2014/04/02/saliva-powered_microbial_fuel_cell_258333.html Highlighted in Real Clear Energy as “Tiny Microbial Fuel Cell That Runs On Spit”, Read more: http://www.realclearenergy.org/2014/04/08/tiny_microbial_fuel_cell_that_runs_on_spit_260278.html News in The Register as “Electronic kit low on juice? SPIT ON IT”, Read more: http://www.theregister.co.uk/2014/04/08/its_saliva_boffins_build_spitpowered_microcells/ Highlighted in Science Daily as Featured Research, Read more: http://www.sciencedaily.com/releases/2014/04/140403105814.htm Highlighted in Medical Web Times, Red more: http://www.medicalwebtimes.com/read/tiny_power_generator_runs_on_spit/ Highlighted in Technoban, Read more: http://www.technobahn.com/articles/2014040318200025.html Highlighted in Penn State News as “Tine Power Generators Run on Spit”, Read more: http://news.psu.edu/story/310362/2014/04/03/research/tiny-power-generator-runs-spit Highlighted in Phys.org, Read more: http://phys.org/news/2014-04-tiny-power.html Highlighted in Russian Econet, Read more: http://econet.ru/articles/11321-sozdana-batareyka-poluchayuschaya-energiyu-iz-slyuny Highlighted in Scienceblog, Read more: http://scienceblog.com/71519/tiny-power-generator-runs-on-spit/ News in Times of India as “This tiny power generator runs on human saliva”, Read more: http://timesofindia.indiatimes.com/home/science/This-tiny-power-generator-runs-on-human-saliva/articleshow/33257432.cms News in India Today as “Tiny power generator runs on human saliva” http://indiatoday.intoday.in/story/tiny-power-generator-runs-on-human-saliva/1/353507.html News in Khaleej Times as “Human saliva to run tiny power generators!” http://www.khaleejtimes.com/kt-article-display-1.asp?section=technology&xfile=data/technology/2014/April/technology_April13.xml Highlighted in Financial Express as “Tiny power generator runs on human saliva” http://www.financialexpress.com/news/tiny-power-generator-runs-on-human-saliva/1238330 Highlighted in Energy Harvesting Journal as “Tiny power generator runs on spit”, Read more at: http://www.energyharvestingjournal.com/articles/tiny-power-generator-runs-on-spit-00006415.asp?sessionid=1] Highlighted in ZEE News as “Human saliva to run tiny power generators!”, Read more: http://zeenews.india.com/news/science/human-saliva-to-run-tiny-power-generators_922328.html Highlighted in Geek as “Microbial fuel cell powers implants with spit” http://www.geek.com/science/microbial-fuel-cell-powers-implants-with-spit-1590335/ Highlighted in Wired as “This tiny generator is powered by spit”, Read more: http://www.wired.co.uk/news/archive/2014-04/04/spit-powered-generator]

64) S. B. Inayat, K. R. Rader, M. M. Hussain*, “Nano-manufacturing of Thermoelectric Nanomaterials (Bi0.4Sb1.6Te3/ Bi1.75Te3.25) and Their Integration into Window Glasses for Thermoelectricity Generation”, Energy Tech. 2(3), 292–299 (2014). [Cover page]

13

2013 (21) 65) J. P. Rojas, M. M. Hussain*, “Flexible Semi-transparent Silicon (100) Fabric with High-κ/Metal Gate Devices”,

Phys. Status Solidi (RRL) 7(3), 1–5 (2013). [Cover Page] [Highlighted in Nanowerk as spotlight: High-performance computing on flexible and transparent monocrystalline silicon, Read more: http://www.nanowerk.com/spotlight/spotid=29310.php#ixzz2iWMbzaIQ]

66) J. P. Rojas, G. Torres Sevilla, M. M. Hussain*, “Structural and Electrical Characteristics of High-k/Metal Gate MOSCAPs Fabricated on Flexible, Semi-transparent Silicon (100) Fabric”, Appl. Phys. Lett. 102, 064102 (2013).

67) G. A. Torres Sevilla, S. B. Inayat, J P. Rojas, A. M. Hussain, M. M. Hussain*, “Flexible and Semi-transparent Thermoelectric Energy Harvesters from Low Cost Bulk Silicon (100)”, Small 9(23), 3916–3921 (2013). [Frontispiece] [Ranked among top 2% articles published in Small] [Highlighted in Nanowerk as spotlight: Flexible thermoelectric generator from bulk silicon, Read more: http://www.nanowerk.com/spotlight/spotid=33639.php, Nanotechweb: Flexible TEG breaks new power record, Red More: http://nanotechweb.org/cws/article/tech/55664]

68) J. P. Rojas, M. T. Ghoneim, C. Young, M. M. Hussain*, “Flexible and Semi-transparent High-κ/Metal Gate Metal/Insulator/Metal Capacitors (MIMCAPs) on Silicon (100)”. IEEE Trans. Elect. Dev. 60(10), 3305–3309 (2013).

69) J. P. Rojas, G. A. Torres Sevilla, M. M. Hussain*, “Can We Build a Truly High Performance Computer Which is Flexible and Transparent?” Nature Sci. Rep. 3, 2609 (2013). DOI: 10.1038/srep02609 [Highlighted as research spotlight in Physicsworld: New silicon devices are fast, flexible and semi-transparent, Read more: http://physicsworld.com/cws/article/news/2013/sep/12/new-silicon-devices-are-fast-flexible-and-semi-transparent, Nanotechweb: On the road to transparent, flexible computers, Read more: (http://nanotechweb.org/cws/article/tech/54634) Nanowerk: On route to building flexible high-performance computers , Read More: (http://www.nanowerk.com/spotlight/spotid=32215.php) EE Journal’s feature article: Flexible, Transparent Silicon? A New Approach from KAUST, Read More: http://eejournal.com/archives/articles/20131209-flexible/ Laboratory News’ feature article: How to flex, bend and stretch, Read More: http://www.labnews.co.uk/features/how-to-flex-bend-and-stretch/]

70) M. T. Ghoneim, J. P. Rojas, A. M. Hussain, M. M. Hussain*, “Additive advantage in characteristics of MIMCAPs on flexible silicon (100) fabric with release-first process” Phys. Status Solidi (RRL) 8(2) 1–4 (2013).

71) M. Hussain*, J. P. Rojas, G. A. Torres Sevilla, “Flexible transparent devices from bulk silicon (100)”, SPIE Newsroom (2013). DOI: 10.1117/2.1201311.004863

72) J. E. Mink, M. M. Hussain*, “Sustainable Design of High Performance Micro-sized Microbial Fuel Cell with Carbon Nanotube Anode and Air Cathode”, ACS Nano, 7(8), 6921–6927 (2013). [Highlighted in Nanowerk as spotlight: A sustainable nanotechnology design for micro-sized microbial fuel cells, Read more: http://www.nanowerk.com/spotlight/spotid=31646.php#ixzz2iWNbxmJY]

73) H. M. Fahad, M. M. Hussain*, “High Performance Silicon Nanotube Tunneling FET for Ultra-Low Power Logic Applications”, IEEE Trans. Elect. Dev. 60(3), 1034–1039 (2013).

74) M. A. Zidan, Hossam A. H. Fahmy, M. M. Hussain, K. N. Salama, “Memristor-Based Memory: The Sneak Paths Problem and Solutions”, Microelectronics Journal, 44(2), 176–183 (2013).

75) H. M. Fahad, A. M. Hussain, G. Torres Sevilla, M. M. Hussain*, “Wavy Channel Transistor for Area Efficient High Performance Operation”, Appl. Phys. Lett. 102, 134109 (2013).

76) A. N. Hanna, M. T. Ghoneim, R. R. Bahabry, A. M. Hussain, H. M. Fahad, M. M. Hussain*, “Zinc Oxide Integrated Area Efficient High Performance Wavy Channel Thin Film Transistor”, Appl. Phys. Lett. 103, 224101 (2013).

14

77) A. N. Hanna, M. T. Ghoneim, R. R. Bahabry, A. M. Hussain, H. M. Fahad, M. M. Hussain*, “Wavy Channel Thin Film Transistor Architecture for Area Efficient, High Performance and Low Power Displays”, Phys. Status Solidi (RRL) 8(3), 248–251 (2013) [Cover Page].

78) M. T. Ghoneim, C. E. Smith, M. M. Hussain*, “Simplistic Graphene Transfer Process and Its Impact on Contact resistance”, Appl. Phys. Lett. 102, 183115 (2013).

79) C. Smith, R. Qaisi, Z. Liu, Q. Yu, M. M. Hussain*, “Low Voltage Back-gated Atmospheric Pressure Chemical Vapor Deposition based Graphene Striped Channel Transistor with High-κ Dielectric Showing Room Temperature Mobility >11,000 cm2/V-s”, ACS Nano, 7(7), 5818–5823 (2013). [Highlighted in Nanowerk as spotlight: High-performance graphene transistor with high room-temperature mobility, Read more: http://www.nanowerk.com/spotlight/spotid=31046.php]

80) A. M. Hussain, H. M. Fahad, G. A. Torres Sevilla, M. M. Hussain*, “Thermal recrystallization of physical vapor deposition based germanium thin films on bulk silicon (100)”, Phys. Status Solidi (RRL) 7(11), 966–970 (2013). [Cover Page]

81) J. E. Mink, R. M. Qaisi, M. M. Hussain*, “Graphene based Flexible Micro-sized Microbial Fuel Cell”, Energy Tech., 1(11), 642–652 (2013). [Cover Page]

82) J. E. Mink, J. P. Rojas, M. M. Hussain*, “Role of Contact Engineering in Micro-sized Microbial Fuel Cell”, Phys. status solidi A, 211(3), 551–554 (2014). [Cover Page]

83) E. E. Aktakka, N. Ghafouri, C. E. Smith, R. L. Peterson, M. M. Hussain, K. Najafi, “Post-CMOS FinFET Integration of Bismuth Telluride and Antimony Telluride Thin-Film-Based Thermoelectric Devices on SOI Substrate”, IEEE Elect. Dev. Lett. 34(10), 1334–1336 (2013).

84) H. M. Fahad, M. Hasan, G. Li, M. M. Hussain*, “Thermoelectricity from wasted heat of integrated circuits”, Appl. Nanosci. 3(3), 175–178 (2013).

85) S. B. Inayat, M. M. Hussain*, “Power Generation from Thermoelectric Systems Embedded Plexiglas for Green Building Technology”, Appl. Nanosci. 3(4), 335–342 (2013).

2012 (6)

86) J. E. Mink, J. P. Rojas, B. E. Logan, M. M. Hussain*, “Vertically grown multi-walled carbon nanotube anode and nickel silicide integrated high performance micro-sized (1.25 µL) microbial fuel cell”, Nano Lett. 12(2), 791–795 (2012).

87) S. B. Inayat, K. R. Rader, M. M. Hussain*, “Nano-materials Enabled Thermoelectricity from Window Glasses”, Nature Sci. Rep. 2, 841 (2012). DOI: 10.1038/srep00841 Media: Nature Middle East as Research Highlight: Sun's heat to power green buildings, Read more: http://www.nature.com/nmiddleeast/2012/121128/full/nmiddleeast.2012.167.html Nanowerk as nanotechnology spotlight: Nanotechnology windows generate electricity from outside heat, Read More: http://www.nanowerk.com/spotlight/spotid=27604.php Energy Harvesting Journal: Thermoelectric windows, Read more: http://www.energyharvestingjournal.com/articles/thermoelectric-windows-00004936.asp?sessionid=1&goback=%2Egna_4217889%2Egde_4217889_member_189211889 Global financial network: Equities http://www.equities.com/news/headline-story?dt=2012-12-13&val=825948&cat=energy

88) H. M. Fahad, M. M. Hussain*, “Are nanotube architectures advantageous than nanowire architectures for field effect transistor applications?”, Nature Sci. Rep. 2, 475 (2012). doi:10.1038/srep00475.

89) Y. Zhai, M. Palard, L. Mathew, M. M. Hussain, C. Grant Willson, E. Tutuc, S. K. Banerjee, “Fabrication of Three-Dimensional MIS Nano-Capacitor Based on Nanoimprinted Single Crystal Silicon Nanowire Arrays”, Micro & Nano-sys. 4(4), 333–338 (2012).

90) C. D. Young, K. Akarvardar, M. O. Baykan, K. Matthews, I. Ok, T. Ngai, K. –W. Ang, J. Pater, C. E. Smith, M. M. Hussain, P. Majhi, C. Hobbs, “(110) and (100) Sidewall-oriented FinFETs: A performance and reliability investigation”, Solid-State Electr. 78, 2–10 (2012).

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91) M. M. Hussain*, H. M. Fahad, R. Qaisi, “Contact Engineering for Nano-scale CMOS”, Phys. Status Solidi A, 209, 1954–1959 (2012). [Invited paper]

2011 (5)

92) Q. Yuan, K. Rader, M. M. Hussain*, “Acid-confined Synthesis of Uniform Three-dimensional (3D) Bismuth Telluride Nanocrystals Consisted of Few-quintuple Layer Nanoplatelets”, Chem. Comm. 47(44), 12131–12133 (2011).

93) M. M. Hussain*, J. Song, “Contact Materials for Nanowire Devices and Nanoelectromechanical Switches”, MRS Bulletin, 36(2), 106–111 (2011) [Invited paper].

94) H. M. Fahad, C.E. Smith, J. P. Rojas, M. M. Hussain*, “Silicon Nanotube Field Effect Transistor with Core-Shell Gate Stacks for Enhanced High Performance Operation and Area Scaling Benefits”, Nano Lett. 11(10), 4393–4399 (2011).

95) A. H. I. Talukdar, A. N. Useinov, M. M. Hussain*, “Magneto-sensor Circuit Efficiency Incremented by Fourier-Transformation”, Measurements, 44, 1482–1486 (2011).

96) H. A. Kloub, C. E. Smith, M. M. Hussain*, “Design and FEM Analysis of Laterally Actuated Multi-Value Nano Electromechanical Switches”, Jap. J. of App. Phys. 50, 09430150 (2011). 2010 (6)

97) J. M. Oommen, A. M. Emwas, P. Agarwal, L. Archer, M. M. Hussain*, “Nuclear Magnetic Resonance Study of Nano-scale Ionic Materials (NIMs)”, Electrochem. Solid-State Lett. 13(11), K87–K88 (2010).

98) H. Cao, Q. Yu, R. Colby, D. Pandey, C. Park, J. Lian, D. Zemlyanov, I. Childres, V. Drachev, E. Stach, M. Hussain, H. Li, S. Pei and Y. Chen, “Large-scale graphitic thin films synthesized on Ni and transferred to insulators: Structural and electronic properties”, J. Appl. Phys. 107, 044310 (2010).

99) M. M. Hussain*, C. E. Smith, R. Harris, C. Young, B. Sassman, H. –H. Tseng, , R. Jammy, “Gate First Integration of High-k/Metal Gate CMOS FinFET with Multi-VTh Engineering”, IEEE Trans. Elect. Dev. 57(3), 626–631 (2010). [Top 10 highest access IEEE TED paper in March 2010]

100) C. D. Young, A. Neugroschel, K. Matthews, C. Smith, D. Heh, H. Park, M. M. Hussein, W. Taylor, G. Bersuker, “Gated Diode Investigation of Bias Temperature Instability in High-κ FinFETs”, IEEE Elect. Dev. Lett. 31(7), 653–655 (2010).

101) C. S. Park, M. M. Hussain, G. Bersuker, P. Kirsch, R. Jammy, “Characteristics of a band-edge p-channel metal-oxide-semiconductor-field-effect-transistors fabricated with a high-k/WAlx/TiSiN gatestack”, Appl. Phys. Lett. 97, 023501 (2010).

102) C. S. Park, P. Lysaght, M. M. Hussain, J. Huang, G. Bersuker, P. Majhi, P. D. Kirsch, H. H. Tseng, and R. Jammy, “Advanced High-k/Metal Gate Stack Progress and Challenges - A Materials and Process Integration Perspective”, Intl. J. Mater. Res. 101(2), 155-163 (2010).

Publications before joining KAUST 2009 (2) 103) H.-H. Tseng , P. Kirsch, C. S. Park, G. Bersuker, P. Majhi, M. Hussain, R. Jammy, “The progress and

challenges of threshold voltage control of high-k/metal-gated devices for advanced technologies”, Microelectronic Engr. 86(7–9), 1722 (2009) [Invited Paper].

104) C. D. Young, J. –W. Yang, K. Matthews, S. Suthram, M. M. Hussain, G. Bersuker, C. Smith, R. Harris, R. Choi, B. H. Lee, H. –H. Tseng, “Hot carrier degradation in HfSiON-TiN fin shaped field effect transistor with different substrate orientations”, J. Vac. Sci. Technol. B: Microelect. Nanometer Struct. 27(1), 468 (2009).

2008 (2)

105) S. Suthram, M. M. Hussain, H. R. Harris, C. Smith, H. –H. Tseng, R. Jammy, S. E. Thompson, “Comparison of Uniaxial Wafer Bending and Contact-Etch-Stop-Liner Stress Induced Performance Enhancement on Double-Gate FinFETs”, IEEE Elect. Dev. Lett. 29(5), 480–482 (2008).

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106) P. D. Kirsch, P. Sivasubramani, J. Huang, C. D. Young, M. A. Quevedo-Lopez, H. C. Wen, H. Alshareef, K. Choi, C. S. Park, K. Freeman, M. M. Hussain, G. Bersuker, H. R. Harris, P. Majhi, R. Choi, P. Lysaght, B. H. Lee, H.-H. Tseng, R. Jammy, T. S. Böscke, D. J. Lichtenwalner, J. S. Jur, and A. I. Kingon, “Dipole model explaining high-k/metal gate field effect transistor threshold voltage tuning”, Appl. Phys. Lett. 92, 092901 (2008).

2007 (7)

107) M. M. Hussain*, G. Gebara, S. Lanee, B. Sassman, L. Larson, ”Controlled Isotropic Dry Etch Based Nano-fabrication”, J. Vac. Sci. Technol. B 25, 1416 (2007).

108) M. M. Hussain*, Carolyn Gondran, Di Michelson, “3D Nanostructure Sidewall Study by Direct Measurement with Conventional Atomic Force Microscope”, Nanotechnology 18(33), 335303 (2007).

109) P. Majhi, P. Kalra, R. Harris, J. Oh, M. M. Hussain, H. -H. Tseng, R. Jammy, "CMOS Scaling Beyond High-k and Metal Gates", Future Fab Intl. 22, 80-84 (2007). [Invited paper]

110) R. Harris, M. M. Hussain, C. Smith, J. -W. Yang, P. Majhi, H. Adhikari, H. -H. Tseng, R. Jammy, “FinFETs: Challenges in Material and Processing for a New 3D Device Paradigm”, Future Fab Intl. 23, 09, (2007). [Invited paper]

111) R. Harris, M. Hussain, C. Smith, J-W. Yang, J. Barnett, B. Sassman, S. Song, B.H. Lee, H. –H. Tseng, R. Jammy, “Critical Components of FinFet Integration: Examining the Density Trade-off and Process Integration for FinFET Implementation”, ECS Trans. 11(6) 331 (2007). [Invited paper]

112) S. Song, M. Hussain, J. Barnett, C. S. Park, C. Park, P. Kirsch, B.H. Lee, R. Jammy, “Integration Challenges and Opportunities for Nanometer Scale CMOSFET with Metal/High-k Gate Stack”, ECS Trans. 11(6) 315 (2007). [Invited paper]

113) C. Y. Kang, R. Choi, M. M. Hussain, J. Wang, Y. J. Suh, H. C. Floresca, M. J. Kim, J. Kim, B. H. Lee, R. Jammy, “Effects of metal gate-induced strain on the performance of metal-oxide-semiconductor field effect transistors with titanium nitride gate electrode and hafnium oxide dielectric”, Appl. Phys. Lett. 91, 033511 (2007).

2006 (8)

114) M. M. Hussain*, G. Gebara, E. Labelle, B. Sassman, S. Lanee, N. Moumen, L. Larson “Deposition Thickness Based Metallic Nano-Imprint Mold”, Microelectr. Engr. 84(4), 594–598 (2007).

115) M. M. Hussain*, N. Moumen, Z. Zhang, B. Womack, “Metal Wet Etch Issues and Effects in Dual Metal Gate Stack Integration”, J. Electrochem. Soc. 153, G389–G393 (2006).

116) M. M. Hussain*, M. Quevedo-Lopez, H. N. Alshareef, D. Larison, B. Gnade, M. El-Bouanani, “Thermal Annealing Effects on Physical Properties of a Representative High-k/Metal Film Stack”, Semicond. Sci. Technol. 21, 1437–1440 (2006).

117) B. H. Lee, S. C. Song, R. Jammy, and M. Hussain, “Challenges in Dual Workfunction Metal Gate CMOS Integration”, ECS Trans. 3 (2) 263–274 (2006). [Invited paper]

118) J. Barnett, N. Moumen, J. Peterson, M. M. Hussain, S. C. Song, G. Bersuker, "Cleaning's Role in High-k/Metal Gate Success", Semicond. Intl. Feb (2006). [Invited paper]

119) M. M. Hussain*, S. C. Song, J. Barnett, C. Y. Kang, B. Sassman, N. Moumen, ”Plasma Induced Damage in High-k/Metal Gate Stack Dry Etch”, IEEE Elect. Dev. Lett. 27(12), 972–974 (2006).

120) S. C. Song, M. M. Hussain, J. Barnett, B. S. Ju, B. H. Lee, ”Advances and Challenges in Dual Work Function Metal Gate CMOS Integration”, Solid State Technol. Aug (2006) [Invited paper].

121) M. M. Hussain*, M. Quevedo-Lopez, H. N. Alshareef, K. Mathur, B. Gnade, “Deposition Method Induced Stress Effects on Ultra-thin Titanium Nitride Etch Characteristics”, Electrochem. Solid-State Lett. 9(12), G361-G363 (2006).

2005 (2)

122) M. M. Hussain*, N. Moumen, J. Barnett, J. Saulters, D. Baker, Z. Zhang, “Metal Wet Etch Process Development for Dual Metal Gate CMOS”, Electrochem. Solid-State Lett. 8, G333 (2005).

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123) Z. Zhang, S. C. Song, C. Huffman, M. M. Hussain, J. Barnett, N. Moumen, H. Alshareef, P. Majhi, J. Sim, S. H. Bae, B. H. Lee, “Integration of Dual Metal Gate CMOS on High-k Dielectrics Utilizing a Metal Wet Etch Process”, Electrochem. Solid-State Lett. 8, G271 (2005).

Book Editing and Contribution To Book Chapters (since joining KAUST) 1) Handbook on Flexible and Stretchble Electronics, CRC Press, Taylor and Francis, 2018 (Editor-in-Chief) 2) Advanced Nanoelectronics for 21st Century and Beyond, Wiley-VCH, 2018 (Editor-in-Chief) 3) Flexible and Stretchable Medical Devices, Wiley-VCH, 2017 (chapter contributed: Wearable Wireless

Technology for Medical Devices) 4) Advanced Nanoelectronics, CRC Press, 2017 (chapter contributed: Tunnel Field Effect Transistors: Physics,

Materials, Processes and Devices) 5) Advances in Wearable Electronics, United Scholars Publications, 2016, [ISBN-13: 978069275718], Editor:

Haider Raad Khaleel (chapter contributed: Physically Flexible High Performance CMOS Electronics) 6) Rational Design of Next-Generation Nanomaterials and Nanodevices for Water Applications, International

Water Association, 2016, [ISBN: 9781780406855] (chapter contributed: Micro-Sized Microbial Fuel Cells for Highly Efficient Energy Harvesting)

7) Handbook of Cleaning for Semiconductor Manufacturing (Fundamentals and Applications), Willey Science, 2011 [ISBN: 9780470625958], Editors: Karen A. Reinhardt and Richard F. Reidy (chapter contributed: Part 2: Applications, Chapter 7: Cleaning challenges of high-k/metal gate structures

CONFERENCE PRESENTATIONS Invited Speaker in Conferences (All Platform Presentations) 1) M. M. Hussain, IEEE ICFET 2018, Ottawa, Canada, 7 – 9 August 2018. 2) M. M. Hussain, “Where Are We With Implantable Healthcare CMOS Electronics?” ECS Spring Meeting 2018,

Seattle, Washington, USA, 13 – 17 May 2018. 3) M. M. Hussain, 76th Device Research Conference, Santa Barbara, California, 24 – 27 June 2018. 4) M. M. Hussain, IEEE NEMS, Singapore, 22 – 26 April 2018. 5) M. M. Hussain, “Crystalline Silicon Based Flexible Solar Cell with World Record Efficiency”, SPIE-DSS

Conference 2018, Orlando, Florida, USA, 15 – 19 April 2018. 6) M. M. Hussain, “Reconfigurable CMOS Electronics”, SPIE-DSS Conference 2018, Orlando, Florida, USA, 15 – 19

April 2018. 7) M. M. Hussain, “Democratized Electronics To Enable Smart Living For All”, IEEE Sensors 2017, Glasgow,

Scotland, 30 October – 01 November 2017. 8) M. M. Hussain, “Integration Strategies for Thermoelectric Generators”, ECS Fall Meeting 2017, Washington,

D. C. USA 2 – 6 October 2017. 9) M. M. Hussain, “Aqua Wearables for Marine Species”, SPIE DSS 2017, Anaheim, California, USA 10 – 14 April

2017. 10) M. M. Hussain, “Nanotechnology for Emerging Free Form Electronics”, 9th International Conference on

Electrical and Computer Engineering (ICECE 2016), Dhaka, Bnagladesh, 20 – 22 December 2016. [Keynote Talk]

11) M. M. Hussain, “Breakthrough In Imagination”, ChemIndix 2016, Manama, Bahrain, 20 – 24 November 2016. 12) M. M. Hussain, “Nanomaterials for Emerging Free Form Electronics”, 4th Saudi International

Nanotechnology Conference (SINC 2016), Dhahran, Saudi Arabia, 25 – 26 October 2016. 13) M. M. Hussain, J. M. Nassar, K. Mishra, G. A. Torres Sevilla, M. Diaz, “Do It Yourself (DIY) Electronics:

Democratizing Electronics”, Saudi Deisgn Week, Riyadh, Saudi Arabia, 7 October 2016. 14) M. M. Hussain, J. M. Nassar, “International Conference on Flexible and Printed Electronics”, Hong Kong

Science & Technology Parks Corp., Hong Kong, 25 August 2016. [Keynote Talk] 15) M. M. Hussain, A. N. Hanna, K. Chow, M. Diaz, “Integration Strategy For Flexible and Stretchable Solid State

Display”, 16th International Meeting on Information Display (IMID 2016), Jeju, Korea, 23 – 26 August 2016. [Session on OLED]

16) M. M. Hussain, “Free Form Electronics: Expanding the Horizon of Electronic Applications”, 12th IEEE International Conference on Semiconductor Electronics (IEEE-ICSE 2016), Kuala Lumpur, Malaysia, 17 – 19 August 2016. [Keynote Talk]

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17) M. M. Hussain, M. T. Ghoneim, A. T. Kutbee, J. M. Nassar, “Thin Film Dielectric for Freeform Electronics”, Thin Films 2016, Singapore, Singapore, 12 – 15 July 2016. [Session on Optoelectronic and Dielectric Thin Films (ODF)]

18) M. M. Hussain, R. R. Bahabry, J. P. Rojas, D. P. Singh, A. C. Sepulveda, I. Wicaksono, A. T. Kutbee, “Freeform Thin Film Energy Harvesters”, Thin Films 2016, Singapore, Singapore, 12 – 15 July 2016. [Session on Functional Thin Films for Energy Photonics (FEP)]

19) M. M. Hussain, A. M. Hussain, A. N. Hanna, “CMOS Technology – A Critical Enabler For Free Form Electronics Based Killer Applications”, SPIE DSS 2016, Baltimore, Maryland, USA 18 – 22 April 2016.

20) M. M. Hussain, A. M. Hussain, A. N. Hanna, “CMOS Technology Enabled Brain Machine Interface (BMI) For Chronic Neuronal Mapping”, Pittcon 2016, Atlanta, Georgia, USA, 10 March 2016. [Session on Biosensing Devices for Neuron Mapping]

21) M. M. Hussain, J. P. Rojas, G. A. Torres Sevilla, A. M. Hussain, M. T. Ghoneim, A. N. Hanna, A. T. Kutbee, J. M. Nassar and M. Cruz, “Free Form CMOS Electronics: Physically Flexible and Stretchable”, 61st IEEE Electron Devices Meeting (IEDM 2015), Washington DC, USA, 7 – 9 December 2015. [Special Focus Session on Flexible Hybrid Electronics]

22) M. M. Hussain, “CMOS Technology For Free Form Flexible-Stretchable-Reconfigurable Electronics” Symposium for Flexible and Stretchable Devices 2015, Singapore, 16 – 17 November 2015.

23) M. M. Hussain, A. T. Kutbee, “Flexible–Stretchable Micro Lithium Ion Batteries for Implantable, Wearable and Embedded Electronics”, 228th ECS Meeting, Phoenix, AZ, USA, 11 – 15 October 2015. [Session on Materials and Cell Designs for Flexible Energy Storage and Conversion Devices]

24) M. M. Hussain, “Transformational Electronics for Transformational Applications”, EMN Istanbul Meeting 2015, 1 – 4 July 2015.

25) M. M. Hussain, A. N. Hanna, A. M. Hussain, M. T. Ghoneim, J. P. Rojas, G. A. Torres Sevilla, “Wavy Channel TFT Architecture for High Performance Oxide Based Displays”, International Conference on Semiconductor Technology for Ultra Large Scale Integrated Circuits and Thin Film Transistors, Salt Lake City, Utah, USA, 15 – 18 June 2015. [Proceedings archieved as ECS Trans. 2015 volume 67, issue 1, pp. 191–198]

26) M. M. Hussain, J. P. Rojas, A. M. Hussain, A. Arevalo, I. G. Foulds, G. A. Torres Sevilla, J. M. Nassar, “Transformational Electronics Are Now Reconfiguring,” SPIE-DSS 2015, Baltimore, 20 – 24 April 2015. [Proc. SPIE 9467, Micro- and Nanotechnology Sensors, Systems, and Applications VII, 946709 (May 22, 2015); doi:10.1117/12.2176790]

27) M. Hussain, J. Rojas, G. Torres Sevilla, A. Hussain, M. Ghoneim, “Wearable Interactive Electronics for Smart Living and Sustainable Future”, Nanotech Dubai 2015, 16 – 18 March 2015. [Plenary Talk]

28) M. M. Hussain, M. T. Ghoneim, J. P. Rojas, A. T. Kutbee, A. N. Hanna, “CMOS compatible generic batch process towards flexible memory on bulk monocrystalline silicon (100)”, 2014 International Conference on Electrical and Computer Engineering (ICECE), Dhaka, Bangladesh, 20 – 22 December 2014. (pp. 655 – 658) [Keynote Talk]

29) M. M. Hussain, “Transformational Electronics”, The 3rd Saudi International Nanotechnology Conference (SINC 2014), Riyadh, KSA, 1 – 3 December 2014.

30) M. M. Hussain, A. M. Hussain, “Stretchable Inorganic Electronics”, ASME 2014 International Mechanical Engineering Congress & Exposition, Montreal, Canada, 14 –20 November 2014.

31) M. M. Hussain, “Transformational Electronics”, 5th International Conference on Flexible and Printed Electronics (ICFPE), Beijing, China, 21 – 23 October, 2014.

32) M. M. Hussain, “Transformational Electronics: Flexible, Stretchable, Transparent Inorganic Nanoelectronics”, 2014 IEEE Conference on Reliability Science for Advanced Materials and Devices, Colorado School of Mines, Golden, CO, USA, 7 – 9 September, 2014. [Keynote Talk]

33) M. M. Hussain, H. M. Fahad, A. M. Hussain, G. A. Torres Sevilla, S. K. Banerjee, “Group IV nanotube transistors for next generation ubiquitous computing”, Proc. SPIE 9083, Micro- and Nanotechnology Sensors, Systems, and Applications VI, 90830K (June 4, 2014); doi:10.1117/12.2050096, Baltimore, MD, USA.

34) M. M. Hussain, J. P. Rojas, G. A. Torres Sevilla, M. T. Ghoneim, A. M. Hussain, S. M. Ahmed, J. M. Nassar, R. R. Bahabry, M. Nour, A. T. Kutbee, E. Byas, B. Al-Saif, A. M. Alamri, “Transformational electronics: a powerful way to revolutionize our information world”, Proc. SPIE 9083, Micro- and Nanotechnology Sensors, Systems, and Applications VI, 90831K (June 4, 2014); doi:10.1117/12.2050103, Baltimore, Maryland, USA.

35) M. M. Hussain, “Thermoelectric Windows for Energy Efficient Buildings”, Construmat 2013 R+D Showcase, Barcelona, Spain, 21 – 25 May 2013. [Keynote Talk]

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36) M. M. Hussain, J. P. Rojas, G. A. Torres Sevilla, “Mechanically Flexible Optically Transparent Silicon Fabric with High Thermal Budget Devices from Bulk Silicon (100)”, SPIE Defense, Security, and Sensing, 2013, Proc. SPIE 8725, Micro- and Nanotechnology Sensors, Systems, and Applications V, 87251M (30 May 2013); doi: 10.1117/12.2015551.

37) C. D. Young, I. Mejia, M. T. Ghoneim, M. Quevedo-Lopez, M. M. Hussain, “Reliability Investigation of Viable Device Structures for Future Flexible Electronic Applications”, International Semiconductor Device Research Symposium 2013, Maryland, USA, 11 – 13 December 2013.

38) M. M. Hussain, “Introduction to Nanotechnology”, 2nd Saudi International Nanotechnology Conference 2012, Riyadh, Saudi Arabia, 10 November 2012. [Tutorial]

39) M. M. Hussain, “Contact Engineering for Nano-structured Devices”, Eur. Mater. Res. Symp. (E-MRS) 2012, Strasbourg, France, 14 – 18 May, 2012.

40) M. M. Hussain, “Nanotechnology Applications for Petroleum Industry”, Society of Petroleum Engineers (SPE) Saudi Arabian Section Symposium, Dhahran, Saudi Arabia, 14 May, 2011. [Conducted A Day Long Workshop]

41) M. M. Hussain, H. M. Fahad, “Quantum Ballistic Device and Ultra Low Power Device for Advanced Nanoelectronics in Defense Applications”, in 2011 Nanoelectronic Devices for Defense & Security (NANO-DDS) Conference, Brooklyn, NY, USA, August 2011.

42) M. M. Hussain, H. Fahad, J. Rojas, M. Hasan, A. Talukdar, J. Oommen J. Mink, "Self-powered integrated systems-on-chip (energy chip)", Proc. SPIE 7679, Micro- and Nanotechnology Sensors, Systems, and Applications II, 767914 (5 May 2010); doi: 10.1117/12.850811.

43) M. M. Hussain, “Integrated Nanotechnology – What and Why?” Emerging Technologies in Solid State Devices Workshop, Baltimore, MD, USA, 5 – 6 December 2009.

44) M. M. Hussain, R. Jammy, “Energy Reversible Sub-100nm Nanoelectromechanical Switch”, NATO Adv. Res. Workshop Adv. Mater. Technol. Micro/Nano Dev., Sens. Actuat., St. Petersburg, Russia, 29 June – 2 July 2009.

45) M. M. Hussain, R. Jammy, “Nanoelectronic Materials and Nanofabrication for Alternate Energy Technologies”, NSTI Nanotech, Houston, Texas, USA, 3 – 7 May, 2009.

46) M. M. Hussain, “Wet Chemical Processes In The Era Of High-k/Metal Gate CMOS Integration”, Surface Preparation and Cleaning Conference (SPCC) Workshop in Austin, Texas, USA, April 2008. [Tutorial]

47) C. Smith, M. Hussain, W. Y. Loh, C. Y. Kang, D. Gilmer, G. Bersuker, P. Majhi, P. Kirsch, R. Jammy, “More after Moore to get More from Moore”, 217th ECS Meeting, Vancouver, Canada, 25 – 30 April, 2010. [Plenary Talk]

48) S. C. Song, M. Hussain, J. Barnett, C. S. Park, C. Park, P. Kirsch, B. H. Lee, R. Jammy, “Integration Challenges and Opportunities for Nanometer Scale Dual Metal Gate CMOSFET”, ECS Fall Meeting 2007, Washington DC, USA, 7 – 12 October 2007. [ECS Trans. 2007, 11(6) 315 – 329]

49) R. Harris, M. Hussain, C. Smith, J-W. Yang, J. Barnett, B. Sassman, S. Song, B.H. Lee, H. –H. Tseng, R. Jammy, “Critical Components of FinFet Integration: Examining the Density Trade-off and Process Integration for FinFET Implementation”, ECS Fall Meeting 2007, Washington DC, USA, 7 – 12 October 2007. [ECS Trans. 2007, 11(6), 331 – 338]

50) J. Barnett, N. Moumen, M. Hussain, Z. Zhang, S. Song, H. Huff, “Surface Preparation Issues Associated with High Metal Gate Devices”, 208th ECS Meeting, Los Angeles, CA, USA, 17 October 2005. [MA2005-02 756]

Invited Speaker in Universities and Industries 1) Department of Medical Engineering, Caltech, Pasadena, CA, USA, May 2018 2) Boeing, Seattle, Washington, USA, May 2018 3) Department of Electrical Engineering, University of Washington, Seattle, May 2018 4) NASA Ames Research Center, California, May 2018 5) Indian Institute of Technology – Mumbai, 11th Jan 2018 6) Indian Institute of Technology – Hyderabad, 10th Jan 2018 7) Indian Institue of Science, 9th Jan 2018 8) Indian Institute of Technology – Dehli, 8th Jan 2018 9) Indian Institute of Technology – Roorkie, 5th Jan 2018 10) Tyndall Institute, Cork, Ireland, 31 October 2017 11) EPFL, Laussane, Switzerland, 27 October 2017 12) MIT Media Lab, MIT, 4 October 2017

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13) EDS Distinguished Lecture, ED/MTT/AP Finland Chapter, 17 May 2017 14) EDS Distinguished Lecture, Electron Devices Soceity Sweden Chapter, 16 May 2017 15) Electrical Egineering, UCLA, 14 April 2017 16) EDS Distinguished Lecture, Electron Devices Soceity University of CA, Riverside Student Branch Chapter,

11 April 2017 17) Nano Science and Engineering, UCSD, 10 April 2017 18) Department of Physics, University of Central Florida, 9 November 2016 19) KAUST Solar Research Conference, 31 October – 2 November 2016 20) Electrical Engineering, Auburn University, 13 October 2016 21) Micro-Nano Seminar, Mechanical Engineering, MIT, 12 October 2016 22) Material Science and Engineering, Northwestern University, 10 October 2016 23) Chemical Engineering, North Carolina State University, 14 September 2016 24) Chemical Engineering, MIT, 13 September 2016 25) Department of Physics, Imperial College, London, 12 September 2016 26) Electrical Engineering, Hong Kong University of Science and Technology, 26 August 2016 27) EDS Distinguished Lecture, EDS Malaysia Chapter, Cyber Jaya, Malaysia, 19 August 2016 28) EDS Distinguished Lecture, Central Texas Chapter, Novati Inc, Austin, Texas, USA, 26 May 2016 29) Physical Electronics Division, TJ Watson Lab, IBM Corporation, 25 May 2016 30) KAUST-NSF Research Conference on Electronic Materials, Devices and Systems for A Sustainable Future

2016, KAUST, Thuwal, Saudi Arabia, 15 March 2016 31) Electrical Engineering, Columbia University, New York City, New York, USA, 9 March 2016 32) IEEE Electron Devices Society Distinguished Lecture, ED Rochester Chapter, Rochester, NY in Xerox

Auditorium, Rochester Institute of Technology, Rochester, New York, USA, 8 March 2016 33) Electrical and Computer Engineering, Cornell University, 7 March 2016 34) International Islamic University Malaysia, Kuala Lumpur, Malaysia, 19 November 2015 35) IEEE Electron Devices Society Distinguished Lecture, ED/CPMT/R Singapore Chapter, National University

of Singapore, Singapore, 17 November 2015 36) Electrical and Computer Engineering, University of California – Santa Barbara, California, USA, 16 October

2015 37) CIS Seminar, Stanford University, 15 October 2015 38) IEEE Distinguished Lecture and Freescale Semiconductor Lecture jointly organized by IEEE Waves and

Devices - Phoenix Chapter and Freescale Semiconductor, Tempe, Arizona, USA, 14 October 2015 39) Material Science and Engineering, University of California – Los Angeles (UCLA), Los Angeles, California,

13 October 2015 40) California Institute of Technology, Pasadena, California, USA, 12 October 2015 41) Boeing Company (webinar throughout all sites in Boeing), Long Beach, California, 12 October 2015 42) Mechanical Engineering and Composite Materials Center, University of Delaware, Delaware, USA, 24

September 2015 43) Material Science and Engineering, Carnegie Melon University, Pittsburgh, Pennsylvania, 23 September

2015 44) Metallurgical and Materials Engineering and Electrical and Computer Engineering (Joint Seminar),

University of Alabama, Tuscaloosa, Alabama, USA, 22 September 2015 45) School of ECE and GEDC, Georgia Institute of Technology, Atlanta, Georgia, USA, 21 September 2015 46) Special Solid State Electronics Seminar, SEAS, Yale University, New Haven, Connecticut, USA, 17 September

2015 47) Applied Mechanics Colloquium, SEAS, Harvard University, Cambridge, Massachusetts, USA, 16 September

2015 48) Microsystems Technology Lab (MTL) Seminar, MIT, Cambridge, Massachusetts, USA, 15 September 2015 49) Electrical and Computer Engineering, University of Utah, Salt Lake City, Utah, 15 June 2015 50) Dean’s Distinguished Speaker, College of Engineering, University of Texas – El Paso, El Paso, Texas, 4

June 2015 51) Mechanical Engineering, University of Nebraska, Lincoln, Nebraska, USA, 2 June 2015 52) Physical Electronics Division, T. J. Watson Lab, IBM Corporation, York Town Heights, New York, USA, 29

May 2015

21

53) Mechanical Engineering, Rutgers University, New Jersey, USA, 28 May 2015 54) Electrical Engineering, University of California - Irvine, California, USA, 22 April 2015 55) Electrical Engineering, University of Sothern California (USC), Los Angeles, California, USA, 24 April 2015 56) ECE and Nanoengineering, University of California – San Diego, USA, 23 April 2015 57) KAUST-NSF Research Conference on Electronic Materials, Devices and Systems for A Sustainability Future

2015, King Abdullah University of Science and Technology, Thuwal, Saudi Arabia, 16 Feb 2015 58) ECE-MSE-TMI-MER, University of Texas - Austin, Austin, January 2015 59) IEEE EDS Distinguished Lecture and Invited Talk, Grenoble Institute of Technology and EDS, France

Chapter, Grenoble, France, 29 September 2014 60) IEEE EDS Distinguished Lecture and Invited Talk, Electrical Engineering and Computer Science

Department and ED/AP/MTT/PHO Southeastern Michigan Chapter, University of Michigan at Ann Arbor, 11 September 2014

61) Electrical and Computer Engineering,, University of Wisconsin–Madison, 10 September 2014 62) IEEE EDS Distinguished Lecture, BUET, ED, Bangladesh University of Engineering and Technology, 22 July

2014 63) IEEE EDS Distinguished Lecture NJIT, ED/CAS, New Jersey Institute of Technology, 25 Jun 2014 64) KAUST-NSF Conference on Electronic Materials, Devices and Systems for Sustainability Future 2014, King

Abdullah University of Science and Technology, Thuwal, Saudi Arabia, 10 Feb 2014 65) Birck Nanotechnology Center, Purdue University, Indiana, USA, 29 January 2014 66) EECS, University of California at Berkeley, Berkeley, California, 6 December 2013 67) Nano-Electronics/Photonics (Nano-EP) Seminar Series, University of Illinois at Urbana Champaign, Illinois,

USA, 4 December 2013 68) Electrical and Computer Engineering, Cornell University, Ithaca, New York, 2 December 2013 69) Material Science and Engineering, University of Texas, Dallas, Texas, 23 July 2013 70) Material Science and Engineering, Texas A&M University, College Station, Texas, 1 July 2013 71) IEEE EDS Distinguished Lecture to IEEE CTS ED/CEDA/CAS/SSC Joint June Meeting, Austin, Texas, USA, 20

June 2013 72) IEEE EDS Distinguished Lecture to The Baltimore IEEE ED/SSC societies, Baltimore, Maryland, USA, 17

June 2013 73) “Large Scale Integration of Advanced Nanomaterials for Energy Efficient Systems”, KAUST-Cornell

University Nanomaterials Workshop 2010, Ithaca, New York, USA, June 2010 74) Material Science and Engineering, University of California, Los Angeles, California May 2010 75) “Ultra Low Power Nano Electro Mechanical Switching”, Qualcomm Inc., San Diego, California, 5 March 2009 76) “Emerging Technologies Based On CMOS Technology”, Texas Instruments, Dallas, Texas, USA, 15 May 2009 77) “Nanotechnology for Efficient Oil Exploration and Enhanced Oil Recovery”, Shell Corporation, Houston,

Texas, USA, 27 February 2009 78) “Large Scale Manufacturable Integration of Advanced High-k/Metal Gate CMOS for Logic Applications”,

Panasonic Corporation, Japan, Samsung Electronics, Korea and United Microelectronics Corporation (UMC), Taiwan from 14 – 18 August 2008

79) “Reapplication of Semiconductor Knowledge for Oil and Gas industry” in Advanced Energy Consortium in Austin, Texas, USA, 20 May 2008

80) “Nanotechnology for Higher Study” in Engineering Colloquium, University of Texas at Austin, Austin, Texas, USA September 2008

Peer-Reviewed Conference Proceedings (*Platform Speaker; **Poster; Student or post-doc advisees are underlined) Conferences after joining KAUST 2017 (1) 1) **G. A. Torres Sevilla, M. D. Cordero, J. M. Nassar, A. T. Kutbee, M. M. Hussain, “Fully Packaged Compliant

CMOS Electronic Systems for IoT and IoE Applications”, IEEE Electron Devices Technology and Manufacturing Conference (EDTM) 2017, Toyama, Japan, 28 Feb – 02 Mar 2017.

22

2016 (5) 2) *J. M. Nassar, G. A. Torres Sevilla, S. J. Velling, M. D. Cordero, M. M. Hussain, “A CMOS-compatible Large-

Scale Monolithic Integration of Heterogeneous Multi-Sensors on Flexible Silicon for IoT Applications”, IEEE Electron Devices Meeting (IEDM) 2016, San Francisco, CA, USA 05 – 07 Dec 2016.

3) **J. M. Nassar, M. D. Cordero, M. M. Hussain, “Affordable Dual-Sensing Proximity Sensor for Touchless Interactive Systems”, 74th Device Research Conference (DRC 2016), Delaware, DE, USA 19 – 22 Jun 2016. [DOI: 10.1109/DRC.2016.7548448]

4) **R. R. Bahabry, A. Gumus, A. T. Kutbee, N. Wehbe, S. M. Ahmed, M. T. Ghoneim, K.–T. Lee, J. A. Rogers, M. M. Hussain, “Current Enhancement in Crystalline Silicon Photovoltaic by Low-Cost Nickel Silicide Back Contact”, IEEE 43rd Photovoltaic Specialists Conference (PVSC 2016), Oregon, Portland, OR, USA 5 – 10 June, 2016. [DOI: 10.1109/PVSC.2016.7749668]

5) *M. M. Hussain, A. M. Hussain, A. N. Hanna, “CMOS Technology – A Critical Enabler For Free Form Electronics Based Killer Applications”, SPIE DSS 2016, Baltimore, MD, USA 18 – 22 April 2016. Proc. SPIE 9836, Micro- and Nanotechnology Sensors, Systems, and Applications VIII, 983617 (May 17, 2016); doi:10.1117/12.2222972 [Invited]

6) *F. A. Ghaffar, A. M. Hussain, M. M. Hussain, A. Shamim, “A Strecthable and Flexible Polymer Based Monopole Antenna for Wearable Applications”, 10th European Conference on Antennas and Propagation (EuCAP 2016) Davos, Switzerland 10 – 15 April, 2016

2015 (8)

7) *M. M. Hussain, J. P. Rojas, G. A. Torres Sevilla, A. M. Hussain, M. T. Ghoneim, A. N. Hanna, A. T. Kutbee, J. M. Nassar, M. Cruz, “Free Form CMOS Electronics: Physically Flexible and Stretchable”, 61st IEEE Electron Devices Meeting (IEDM 2015), Washington DC, USA, 7 – 9 December, 2015 [Invited] (pp. 19.4.1–19.4.4)

8) *A. T. Kutbee, M. T. Ghoneim, M. M. Hussain, “Flexible Lithium-Ion Planer Thin-Film Battery”, 15th International Conference on Nanotechnology (IEEE NANO 2015), Rome, Italy, 27-30 July, 2015 (pp. 1426–1429)

9) *M. T. Ghoneim, N. Alfaraj, G. A. Torres Sevilla, M. M. Hussain, “Ultra-High Density Out-of-plane Strain Sensor based on Nano-scale Non-Planar 3D FinFET”, 15th International Conference on Nanotechnology (IEEE NANO 2015), Rome, Italy, 27-30 July, 2015 (pp. 1422–1425)

10) **J. P. Rojas, W. M. Alqarni, J. E. Mink, K. K. Kalantan, M. M. Hussain, “Nano-watt Power From Micro-Scale Microbial Fuel Cell Using Black Tea Waste”, 15th International Conference on Nanotechnology (IEEE NANO 2015), Rome, Italy, 27-30 July, 2015 (pp. 955–958)

11) *A. N. Hanna, A. M. Hussain, M. M. Hussain, “Wavy Channel Architecture Thin Film Transistor (TFT) Using Amorphous Zinc Oxide For High-Performance And Low-Power Semiconductor Circuits”, 73rd Annual Device Research Conference, Ohio State University, Ohio, USA, June 21-24, 2015 (pp. 201–202)

12) **M. T. Ghoneim, N. Alfaraj, G. A. Torres Sevilla, H. M. Fahad, M. M. Hussain, “Out-of-plane Strain Effect on Silicon-Based Flexible FinFETs”, 73rd Annual Device Research Conference, Ohio State University, Ohio, USA, June 21-24, 2015 (pp. 95–96)

13) *A. N. Hanna, A. M. Hussain, M. T. Ghoneim, J. P. Rojas, G. A. Torres Sevilla, M. M. Hussain, “Wavy Channel TFT Architecture for High Performance Oxide Based Displays”, International Conference on Semiconductor Technology for Ultra Large Scale Integrated Circuits and Thin Film Transistors, Salt Lake City, Utah, USA, June 15-18, 2015 [Invited] [Proceedings archieved as ECS Trans. 2015 volume 67, issue 1, pp. 191–198]

14) *J. P. Rojas, A. M. Hussain, A. Arevalo, I. G. Foulds, G. A. Torres Sevilla, J. M. Nassar, M. M. Hussain, “Transformational Electronics Are Now Reconfiguring,” SPIE-DSS 2015, Baltimore, Apr 20-24, 2015 [Invited] [Proc. SPIE 9467, Micro- and Nanotechnology Sensors, Systems, and Applications VII, 946709 (May 22, 2015); doi:10.1117/12.2176790]

2014 (12)

15) **S. M Ahmed, A. M Hussain, J. P Rojas, M. M. Hussain, “Solid State MEMS Devices on Flexible and Semi-transparent Silicon (100) Platform”, The 27th (IEEE/ASME) International Conference on Micro Electro Mechanical Systems (MEMS 2014), San Francisco, California, USA (pp. 548–551)

16) *H. Fahad, G. Torres Sevilla, M. Ghoneim M. M. Hussain, “High Performance Flexible CMOS SOI FinFETs”, 72nd Device Research Conference (DRC), Santa Barbara, California, USA (pp. 231–232)

23

17) *M. T. Ghoneim, A. N. Hanna, M. M. Hussain, “Ultra-Thin Flexible and Semi-Transparent Bulk Monocrystalline Silicon (100) Fabric based FeRAM”, IEEE NANO 2014 (14th International Conference on Nanotechnology), Toronto, ON, Canada (pp. 448–451)

18) *J. M. Nassar, A. M. Hussain, J. P. Rojas, M. M. Hussain, “Transfer-less Flexible and Transparent High-κ/Metal Gate Germanium Devices on Bulk Silicon (100)”, IEEE NANO 2014 (14th International Conference on Nanotechnology), Toronto, ON, Canada (pp. 176–179)

19) *M. Nour, M. Ghoneim, R. Droopad, M. M. Hussain, “CMOS Compatible Route for GaAs based Large Scale Flexible and Transparent Electronics”, IEEE NANO 2014 (14th International Conference on Nanotechnology), Toronto, ON, Canada (pp. 835–838)

20) *A. N. Hanna, G. A. Torres Sevilla, M. T. Ghoneim, M. M. Hussain, “Wavy channel thin film transistor for area efficient high performance and low power applications”, (IEEE) 2014 10th Conference on Ph.D. Research in Microelectronics and Electronics (PRIME), Grenoble, France (pp. 1–4)

21) *G. A. Torres Sevilla, J. P. Rojas, M. M. Hussain, “High performance electronics on flexible silicon for brain computing”, (IEEE) 2014 10th Conference on Ph.D. Research in Microelectronics and Electronics (PRIME), Grenoble, France (pp. 1–4)

22) *H. M. Fahad, A. M. Hussain, G. A. Sevilla Torres, S. K. Banerjee, M. M. Hussain, “Group IV nanotube transistors for next generation ubiquitous computing”, Proc. SPIE 9083, Micro- and Nanotechnology Sensors, Systems, and Applications VI, 90830K (June 4, 2014); doi:10.1117/12.2050096, Baltimore, MD, USA [Invited]

23) *J. P. Rojas, G. A. Torres Sevilla, M. T. Ghoneim, A. M. Hussain, S. M. Ahmed, J. M. Nassar, R. R. Bahabry, M. Nour, A. T. Kutbee, E. Byas, B. Al-Saif, A. M. Alamri, M. M. Hussain, “Transformational electronics: a powerful way to revolutionize our information world”, Proc. SPIE 9083, Micro- and Nanotechnology Sensors, Systems, and Applications VI, 90831K (June 4, 2014); doi:10.1117/12.2050103, Baltimore, MD, USA [Invited]

24) **A. Diab, G.A. Torres Sevilla, M.T. Ghoneim and M.M. Hussain, “High Temperature Performance of Flexible SOI FinFETs with Sub-20 nm Fins”, 2014 IEEE S3S Conference, October 6 - 9, 2014, Millbrae, CA, USA (pp. 1–2)

25) **J. M. Nassar, A. M. Hussain, J. P. Rojas and M. M. Hussain, “Flexible Silicon-Germanium Devices With High-k/Metal Gate Stacks For Next Generation High Hole Mobility Channel Devices”, 46th International Conference on Solid State Materials and Devices (SSDM 2014) in Tsukuba, Ibaraki, Japan 8 – 11 September. 2014

26) *M. T. Ghoneim, J. P. Rojas, A. T. Kutbee, A. N. Hanna, M. M. Hussain, “CMOS compatible generic batch process towards flexible memory on bulk monocrystalline silicon (100)”, 2014 (IEEE) International Conference on Electrical and Computer Engineering (ICECE), Dhaka, Bangladesh, 20 – 22 December, 2014 (pp. 655 – 658) [Keynote]

2013 (8)

27) *M. M. Hussain, J. P. Rojas, G. A. Torres Sevilla, “Mechanically Flexible Optically Transparent Silicon Fabric with High Thermal Budget Devices from Bulk Silicon (100)”, SPIE Defense, Security, and Sensing, 2013, 87251M-87251M-14 [Invited talk]

28) *A. Mayet, C. Smith, M. Hussain, “Energy Reversible Switching from Amorphous Metal based Nanoelectromechanical Switch”, 2013 13th IEEE Conference on Nanotechnology (IEEE NANO 2013), Beijing, China, August 5-8, 2013 (pp 366–369)

29) *R. Qaisi, C. Smith, M. Ghoneim, M. Hussain, “Direct Measurement of Graphene Contact Resistivity to Pre-deposited Metal in Buried Contact Test Structure”, 2013 13th IEEE Conference on Nanotechnology (IEEE NANO 2013), Beijing, China, August 5-8, 2013 (pp. 890–893)

30) *A. M. Hussain, G. A.Torres Sevilla, K. R. Rader, M. M. Hussain, “Chemical Vapor Deposition Based Tungsten Disulfide (WS2) Thin Film Transistor”, (IEEE) 2013 Saudi International Electronics, Communications and Photonics Conference (SIECPC), Riyadh, Saudi Arabia, 27 – 30 April, 2013 (pp. 1 – 5)

31) *A. Mayet, C. Smith, M. M. Hussain, “Amorphous Metal Based Nanoelectromechanical Switch”, (IEEE) 2013 Saudi International Electronics, Communications and Photonics Conference (SIECPC), Riyadh, Saudi Arabia, 27 – 30 April, 2013 (pp. 1 – 5)

24

32) *R. Qaisi, C. Smith, M. M. Hussain, “Time Variant Layer Control in Atmospheric Pressure Chemical Vapor Deposition Based Growth of Graphene”, (IEEE) 2013 Saudi International Electronics, Communications and Photonics Conference (SIECPC), Riyadh, Saudi Arabia, 27 – 30 April, 2013 (pp. 1 – 6)

33) **A. M. Hussain, H. M. Fahad, N. Singh, K. R. Rader, G. A. Torres Sevilla, U. Schwingenschlögl, M. M. Hussain, “Exploring SiSn as channel material for LSTP device applications”, Device Research Conference (DRC) 2013, Bend, Indiana, USA, 26 – 28, 2013 (pp. 93 – 94)

34) *G. T. Sevilla, J. P. Rojas, S. Ahmed, A. Hussain, S. B. Inayat, M. M. Hussain, “Silicon Fabric for Multi-Functional Applications”, The 17th International Conference on Solid-State Sensors, Actuators and Microsystems, Transducers 2013 & Eurosensors XXVII, Barcelona, Spain, 16 – 20 Jun 2013 (pp. 2636 – 2639)

2012 (4)

35) **J. P. Rojas, A. Syed, M. M. Hussain, “Mechanically Flexible, Optically Transparent Porous Mono-crystalline Silicon Substrate”, IEEE 25th International Conference on Micro Electro Mechanical Systems (MEMS), 2012, Paris, France, 29 Jan – 2 Feb, 2012 (pp. 281 – 284)

36) *J. Rojas, M. M. Hussain, “Sub-15 nm Nano-pattern Generation by Spacer Width Control for High Density Precisely Positioned Self-assembled Device Nanomanufacturing”, 12th IEEE Conference on Nanotechnology (IEEE NANO) 2012, Birmingham, UK, 20 – 23 August, 2012 (pp. 1 – 5)

37) *J. Mink, M. M. Hussain, “Excellent Endurance of MWCNT Anode in Micro-sized Microbial Fuel Cell” , 12th IEEE Conference on Nanotechnology (IEEE NANO) 2012, Birmingham, UK, 20 – 23 August, 2012 (pp. 1 – 4)

38) *E. E. Aktakka, C. E. Smith, N. Ghafouri, R. L. Peterson, M. M. Hussain, K. Najafi, “Heterogeneous Integration of Co-evaporated Bismuth/Antimony Telluride Thin Films Based Thermoelectric Harvesters on FinFET CMOS Chip”, 12th Int. Conf. on Micro and Nanotechnology for Power Generation and Energy Conversion Apps. (PowerMEMS’12), Atlanta, Georgia, USA, 2 – 5 December 2012 (pp. 97-100)

2011 (3)

39) *H. A. Kloub, C. E. Smith, M. M. Hussain, “Multi States Electromechanical Switch For Energy Efficient Parallel Data Processing”, 2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC), Riyadh, Saudi Arabia, 24 – 26 April 2011 (pp. 1 – 3)

40) *C. Young, M. Baykan, A. Agarwal, H. Madan, K. Akarvardar, C. Hobbs, I. Ok, W. Taylor, C. E. Smith, M. M. Hussain, T. Nishida, S. Thompson, P. Majhi, P. Kirsch, S. Datta, and R. Jammy, “Critical Discussion on (100) and (110) Orientation Dependent Transport: nMOS Planar and FinFET”, 2011 IEEE Symposium on VLSI Technology (VLSI Symposium 2011), Kyoto, Japan, 14 – 16 June, 2011 (pp. 18 - 19)

41) *H. F. Dadgour, M. M. Hussain, A. Cassell, N. Singh, K. Banerjee, “Impact of Scaling on the Performance and Reliability Degradation of Metal-Contacts in NEMS Devices”, 2011 IEEE International Reliability Physics Symposium (IRPS), Monterey, CA, USA, 10 – 14 April 2011, (pp. 3D.3.1 - 3D.3.10)

2010 (7)

42) *C. S. Park, M. M. Hussain, K. Tateiwaa, J. Huang, J. Linb, T. Ngai, S. Lian, K. Rader, B. Taylor, P. Kirsch, R. Jammy, “Alternative Approaches for High-k/Metal Gate CMOS: Low Temperature Process (Gate Last) and SiGe Channel”, 2010 International Symposium on VLSI Technology Systems and Applications (VLSI-TSA), Hsinchu, Taiwan, 26 – 28 April, 2010 (pp. 80 – 81) [First two authors equally contributed to this paper]

43) *C.D. Young, A. Neugroschel, K. Matthews, C. Smith, H. Park, M.M. Hussain, P. Majhi, G. Bersuker, “Improved Interface Characterization Technique for High-k/Metal Gated MugFETs Utilizing a Gated Diode Structure”, 2010 International Symposium on VLSI Technology Systems and Applications (VLSI-TSA), Hsinchu, Taiwan, 26 – 28 April, 2010 (pp. 68 – 69).

44) *C. Smith, S. Parthasarathy, B. E. Coss, J. Williams, H. Adhikari, G. Smith, B. Sassman, M. M. Hussain, P. Majhi, R. Jammy, “Strain Engineering in Nanoscale CMOS FinFETs and Methods to Optimize RS/D”, 2010 International Symposium on VLSI Technology Systems and Applications (VLSI-TSA), Hsinchu, Taiwan, 26 – 28 April, 2010 (pp. 156 – 157)

45) *M. M. Hussain, H. Fahad, J. Rojas, M. Hasan, A. Talukdar, J. Oommen, J. Mink, "Self-powered integrated systems-on-chip (energy chip)", Proc. SPIE 7679, 767914 (2010); doi:10.1117/12.850811 [Invited]

46) *H. Dadgour, M. M. Hussain, C. E. Smith, K. Banerjee, “Design and Analysis of Compact Ultra Low-Power Logic Gates Using Laterally-Actuated Double-Electrode NEMS”, 2010 47th ACM/IEEE Design Automation Conference (DAC) 2010, Anaheim, CA, USA, 13 – 18 June, 2010 (pp. 893 – 896)

25

47) *H. Dadgour, M. M. Hussain, C. E. Smith, K. Banerjee, “A New Paradigm in the Design of Energy-Efficient Digital Circuits Using Laterally-Actuated Double-Gate NEMS”, 2010 ACM/IEEE International Symposium on Low-Power Electronics and Design (ISLPED), Austin, TX, USA, 18 – 20 August, 2010 (pp. 7 – 12)

48) *M. M. Hasan, A.B.M.H. Rashid, M.M. Hussain, “A Novel Match-line Selective Charging Scheme for High-Speed, Low-Power and Noise-Tolerant Content-Addressable Memory”, (IEEE) 2010 International Conference on Intelligent and Advanced Systems (ICIAS), Kuala Lumpur, Malaysia, 15 – 17 June, 2010 (pp. 1 – 4)

Conferences before joining KAUST 2009 (4)

49) *C. S. Park, J. W. Yang, M. M. Hussain, C. Y. Kang, J. Huang, P. Sivasubramani, C. Park, K. Tateiwa, Y. Harada, J. Barnett, C. Melvin, G. Bersuker, P. D. Kirsch, B. H. Lee, H. H. Tseng, R. Jammy “La-doped metal/High-K nMOSFET for Sub-32nm HP and LSTP Application”, International Symposium on VLSI Technology, Systems, and Applications 2009 (VLSI-TSA), Taiwan, 27 – 29 April, 2010 (pp. 59 – 60)

50) *C. S. Park, M. M. Hussain, J. Huang, C. Park, K. Tateiwa, C. Young, H. K. Park, M. Cruz, D. Gilmer, K. Rader, J. Price, P. Lysaght, D. Heh, G. Bersuker, P. D. Kirsch, H. -H. Tseng, R. Jammy, “A Scalable and Highly Manufacturable Single Metal Gate/High-k CMOS Integration for Sub-32nm Technology for LSTP Applications”, 2009 Symposium on VLSI Technology (VLSI Symposium), Kyoto, Japan, 16 – 18 June 2009, (pp. 208 – 209) [First two authors equally contributed to this paper]

51) *J. Huang, D. Heh, P. Sivasubramani, P. D. Kirsch, G. Bersuker, D. C. Gilmer, M.A. Quevedo-Lopez, M. M. Hussain, P. Majhi, P. Lysaght, H. Park, N. Goel, C. Young, C.S. Park, C. Park, M. Cruz, V. Diaz, P. Y. Hung, J. Price, H.-H. Tseng, R. Jammy, “Gate First High-k/Metal Gate Stacks with Zero SiOx Interface Achieving EOT=0.59nm for 16nm Application”, 2009 Symposium on VLSI Technology (VLSI Symposium), Kyoto, Japan, 16 – 18 June 2009, (pp. 34 – 35)

52) *K.S. Min, C. Y. Kang, C. Park, B. J. Park, M. M. Hussain, Jack C. Lee ,G. Y. Yeom, P. Kirsch, H-H, Tseng, R. Jammy, “A Novel Damage-Free High-k Etch Technique Using Neutral Beam-Assisted Atomic Layer Etching (NBALE) for Sub-32nm Technology Node Low Power Metal Gate/High-k Dielectric CMOSFETs”, 2009 IEEE International Electron Devices Meeting (IEDM), Baltimore, Maryland, USA, 7 – 9 December 2009, (pp. 1 – 4)

2008 (6)

53) *T. G. Dziura, B. Bunday, C. Smith, M. M. Hussain, R. Harris, X. Zhang, J. M. Price, “Measurement of high-k and metal film thickness on FinFET sidewalls using scatterometry”, Proc. SPIE 6922, Metrology, Inspection, and Process Control for Microlithography XXII, 69220V (24 March 2008); doi: 10.1117/12.773593

54) *S. Suthram, H. R. Harris, M. M. Hussain, C. Smith, C. D. Young, J. –W. Yang, K. Mathews, K. Freeman, P. Majhi, H. –H. Tseng, R. Jammy, S. E. Thompson, “Understanding Strain Effects on Double-Gate FinFET Drive-Current Enhancement, Hot-Carrier Reliability and Ring-Oscillator Delay Performance via Uniaxial Wafer Bending Experiments”, International Symposium on VLSI Technology, Systems and Applications (VLSI-TSA), 2008, Taiwan, 21 – 23 April 2008, (pp. 20 – 21)

55) *J. –W. Yang, H. R. Harris, M. M. Hussain, B. Sassman, H. –H. Tseng, R. Jammy, “Enhanced Performance and SRAM Stability in FinFET with Reduced Process Steps for Source/Drain Doping”, International Symposium on VLSI Technology, Systems and Applications (VLSI-TSA), 2008, Taiwan, 21 – 23 April 2008 , (pp. 152 – 153)

56) *J. Huang, P. D. Kirsch, M. M. Hussain, D. Heh, P. Sivasubramani, C. Young, D. C. Gilmer, C. S. Park, Y. N. Tan, C. Park, H. R. Harris, P. Majhi, G. Bersuker, B. H. Lee, H. –H. Tseng, R. Jammy, “Gate First Band Edge High-k/Metal Stacks with EOT=0.74nm for 22nm Node nFETs”, International Symposium on VLSI Technology, Systems and Applications (VLSI-TSA), 2008, Taiwan, 21 – 23 April 2008, (pp. 163 – 164)

57) *M. M. Hussain, K. Rader, C. Smith, C. Young, S. Suthram, C. Park, M. Cruz, P. D. Kirsch, R. Jammy, “Additive Process Induced Strain (APIS) Technology for 32nm High-k/Metal Gate MOSFETs”, 2008 International Conference on Solid State Devices and Materials (SSDM), Ibaraki, Japan, 23 – 26 September 2008

58) *J. Huang, D. Heh, P. D. Kirsch, C. Y. Kang, G. Bersuker, M. Hussain, P. Majhi, P. Sivasubramani, D. C. Gilmer, N. Goel, M.A. Quevedo-Lopez, C. Young, C.S. Park, C. Park, P. Y. Hung, J. Price, H.R. Harris, B .H. Lee, H.-H. Tseng, R. Jammy, “Device and Reliability Improvement of LaOx capped HfSiON+LaOx/MG Gate Stacks with

26

Tinv=1.15nm for 22nm Node Application”, IEEE International Electron Devices Meeting (IEDM), 2008, San Francisco, California, USA, 15 – 17 December 2008 , (pp. 1 – 4)

2007 (6)

59) *H. R. Harris, P. Kalra, P. Majhi, M. Hussain, D. Kelly, J. Oh, D. He, J. Barnett, P. Kirsch, G. Gebara, J. Jur, D. Lichtenwalner, T. P. Ma, S. Thompson, B. H. Lee, H.-H.Tseng, R. Jammy, “Band-Engineered Low PMOS VT with High-K/Metal Gate Including High Performance Dual Channel CMOS Integration”, IEEE Symposium on VLSI Technology, 2007 (VLSI Symposium), Kyoto, Japan, 12 – 14 June 2007 , Page(pp. 154 – 155)

60) *M. M Hussain, G. Gebara, J. Yang, P. Kalra, J. Price, B. Sassman, K. Matthews, H. R. Harris, H. H. Tseng, R. Jammy, "Dual work function high-k/Metal Gate CMOS FinFETs", 37th European Solid State Device Research Conference (ESSDERC), 2007, Munich, Germany, 11 – 13 September 2007 , (pp. 207 – 209)

61) *C. D. Young, K. Matthews, S. Suthram, M. M. Hussain, C. Smith, R. Harris, R. Choi, H.-H. Tseng, “Hot Carrier Injection Study on Sidewall Surfaces of HfSiON/TiN FinFETs”, 2007 IEEE 38th Semiconductor Interface Specialists Conference (SISC), Arlington, Virginia, USA, 6 – 8 December 2007

62) *P. Sivasubramani, P. D. Kirsch, J. Huang, C. Park, Y. N. Tan, D. C. Gilmer, C. Young, K. Freeman, M. M. Hussain, H. R. Harris, S. C. Song, D. Hen, R. Choi, P. Majhi, G. Bersuker, P. Lysaght, B. H. Lee, H. –H. Tseng, J. S. Jur, D. J. Lichtenwalner, A. I. Kingon, R. Jammy,“ Aggressively Scaled High-k Gate Dielectric with Excellent Performance and High Temperature Stability for 32nm and Beyond”, IEEE International Electron Devices Meeting (IEDM), 2007, Washington DC, USA, 10 – 12 December 2007, (pp. 543 – 546)

63) *S. Suthram, P. Majhi, G. Sun, P. Kalra, H. R. Harris, K. Choi, D. Heh, J. Oh, D. Kelly, R. Choi, B. J. Cho, M. M. Hussain, C. Smith, S. Banerjee, W. Tsai, S. E. Thompson, H. –H. Tseng, R. Jammy, “High Performance pMOSFETs Using Si/Si1-xGex/Si Quantum Wells with High-k/Metal Gate Stacks and Additive Uniaxial Strain for 22 nm Technology Node”, IEEE International Electron Devices Meeting (IEDM), 2007, Washington DC, USA, 10 – 12 December 2007, (pp. 727 – 730)

64) *H. R. Harris, S. E. Thompson, S. Krishnan, P. Kirsch, P. Majhi, C. E. Smith, M. M. Hussain, G. Sun, H. Adhikari, S. Suthram, B. H. Lee, H. –H. Tseng, R. Jammy, Flexible, Simplified CMOS on Si(110) with Metal Gate/High-k for HP and LSTP, IEEE International Electron Devices Meeting (IEDM), 2007, Washington DC, USA, 10 – 12 December 2007, (pp. 57 – 60)

2006 (8)

65) *Z. Zhang, M. M. Hussain, S. C. Song, S. H. Bae, B. H. Lee, “Impact of Metal Wet Etch on Device Characteristics and Reliability for Dual Metal Gate/High-k CMOS”, 44th Annual IEEE International Reliability Physics Symposium Proceedings (IRPS), 2006, San Jose, USA, 26 – 30 March 2006, (pp. 388 – 391)

66) *S. C. Song, Z. Zhang, M. M. Hussain, C. Huffman, J. Barnett, S. H. Bae, H. J. Li, P. Majhi, C. S. Park, B. S. Ju, H. K. Park, C. Y. Kang, R. Choi, P. Zeitzoff, H. H. Tseng, B. H. Lee, R. Jammy, ”Highly Manufacturable 45nm LSTP CMOSFETs Using Novel Dual High-k and Dual Metal Gate (DHDMG) CMOS Integration”, Digest of Technical Papers 2006 Symposium on VLSI Technology (VLSI Symposium), 2006, Hawaii, USA, 13 – 15 June 2006, (pp. 13 – 14)

67) *M. M. Hussain, S. C. Song, C. Y. Kang, M. Quevedo-Lopez, H. N. Alshareef, B. Sassman, R. Choi, B. H. Lee, “Compatibility of ALD HfSiON with Dual Metal Gate CMOS Integration Scheme”, 2006 International Conference on Solid State Devices and Materials (SSDM), Pacifico Yokohama, Japan, 12 – 15 September 2006

68) *B. H. Lee, S. C. Song, M. Hussain, J. Barnett, R. Jammy, ”Challenges in dual workfunction metal gate CMOS integration”, ECS Fall Meeting 2006, Cancun, Mexico, 29 October – 3 November 2006 (Archieved in ECS Trans. 2006 3(2): 263-274; doi:10.1149/1.2356286 ; Published 20 October 2006)

69) *C. Y. Kang, R. Choi, S. C. Song, B. S. Ju, M. M. Hussain, B. H. Lee, J. W. Yang, D. T. Pham, H. –H. Tseng, ”Effects of ALD TiN Metal Gate Thickness on Metal Gate/High-k Dielectric SOI FinFET Characteristics”, 2006 IEEE International SOI Conference, Buffalo, NY, USA, 2 – 5 October 2006, (pp. 135 – 136)

70) *C. Y. Kang, R. Choi, S. H. Bae, S. C. Song, M. M. Hussain, C. Yong, D. Heh, G. Bersuker, B. H. Lee, “Effects of Optimization of Gate Edge Profile on Sub-45 nm Metal Gate High-k Dielectric Metal Oxide Semiconductor Field Effect Transistors Characteristics”, 2006 International Conference on Solid State Devices and Materials (SSDM), Pacifico Yokohama, Japan, 12 – 15 September 2006

71) *C. Y. Kang, R. Choi, S. C. Song, K. Choi, B. S. Ju, M. M. Hussain, B. H. Lee, G. Bersuker, C. Young, D. Heh, P. Kirsch, J. Barnet, J-W. Yang, W. Xiong, H-H Tseng, R. Jammy, "A Novel Electrode-Induced Strain Engineering

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for High Performance SOI FinFET utilizing Si (110) Channel for Both N and PMOSFETs", International Electron Devices Meeting (IEDM), 2006, San Francisco, California, USA, 11 – 13 December, 2006, (pp. 1 – 4)

72) *H. R. Harris, H. Alshareef, H.C. Wen, S. Krishnan, K. Choi, H. Luan, D. Heh, C.S. Park, H.B. Park, M. Hussain, B.S. Ju, P.D. Kirsch, S.C. Song, P. Majhi, B.H. Lee, R. Jammy, "Simplified manufacturable band edge metal gate solution for NMOS without a capping layer", International Electron Devices Meeting (IEDM), 2006, San Francisco, California, USA, 11 – 13 December, 2006, (pp. 1 – 4)

2005 (4)

73) *M. M. Hussain, N. Moumen, J. Barnett, J. Saulters, D. Baker, M. Akbar, Z. Zhang, “Metal Wet Etch Process Development for Dual Metal Gate CMOS”, ECS 207th Spring Meeting 2005, Quebec City, QC, Canada, 15 – 20 May, 2005 (Archieved in Electrochem. Solid-State Lett. 2005 volume 8, issue 12, G333-G336)

74) *M. S. Akbar, N. Moumen, J. Peterson, M. M. Hussain, “Effects of Precursor Pulse time in ALD HfO2”, ECS 207th Spring Meeting 2005, Quebec City, QC, Canada, 15 – 20 May, 2005

75) *J. Barnett, N. Moumen, J. Peterson, M. Hussain, G. Bersuker, “The Role of Surface Preparation in the Implementation of High-κ Dielectrics for 45nm and Beyond”, Proceedings of the SCP 9th International Symposium on Wafer Cleaning and Surface Preparation, 8 – 9 June, 2005

76) *Z. B. Zhang, S. C. Song, C. Huffman, J. Barnett, N. Moumen, H. Alshareef, P. Majhi, M. Hussain, M. S. Akbar, J. H. Sim, S. H. Bae, B. Sassman, and B. H. Lee, “Integration of Dual Metal Gate CMOS with TaSiN (NMOS) and Ru (PMOS) Gate Electrodes on HfO2 Gate Dielectric”, Digest of Technical Papers Symposium on VLSI Technology (VLSI Symposium), 2005, Kyoto-Japan, June 2005, (pp. 50 – 51)

Abstracts (*Platform Speaker; **Poster; Student or post-doc advisees are underlined) Conferences after joining KAUST 2016 (2) 1) **R. Bahabry, M. M. Hussain, “Low Cost Metallization for Crystalline Silicon Photovoltaics”, C3E Women in

Clean Energy Symposium 2016, Stanford University, Stanford, California, USA 31 May 2016. 2) **A. T. Kutbee, M. M. Hussain, “Flexible Li-Ion Microbattery for Wearable Electronics”, C3E Women in Clean

Energy Symposium 2016, Stanford University, Stanford, California, USA 31 May 2016.

2015 (5) 3) **A. N. Hanna, M. T. Ghoneim, M. M. Hussain, “FET transconductance as a probe of

ferroelectric/semiconductor interface“, 46th IEEE Semiconductor Interface Specialist Conference (SISC 2015), Washington DC, USA, 8 – 10 December 2015

4) **M. T. Ghoneim, M. M. Hussain, “Nanoscale Thin PZT Based Capacitors for Dual Temperature Sensing and Non-Volatile Memory” 4th Nano Today Conference, Dubai, UAE, 4 – 6 December, 2015

5) *A. M. Hussain, M. M. Hussain, “Design Considerations For Micro-Fabrication Of Optimized Lateral Sprint Structures For Wearable Electronics,” ASME 2015 International Mechanical Engineering Congress & Exposition (IMECE 2015), Houston, Texas, USA, 14 – 20 November, 2015

6) **A. M. Hussain, M. M. Hussain, “Nano-layer Silicon-Tin (SiSn) Alloy: Performance Enhancing Semiconductor Material System” 4th Nano Today Conference, Dubai, UAE, 4 – 6 December, 2015

7) *M. Hussain, J. Rojas, G. Torres Sevilla, A. Hussain, M. Ghoneim, “Wearable Interactive Electronics for Smart Living and Sustainable Future,” Nanotech Dubai 2015, Dubai, UAE, 16 – 18 March, 2015 (Plenary)

2014 (13)

8) *A. Hussain, M. Mustafa Hussain, “Flexible, High Strength, Copper Conductors for Flexible Electronic Circuits” 23rd International Conference on Processing and Fabrication of Advanced Materials, IIT Roorkee, India, 5 – 7 December, 2014 (Invited)

9) *R. R. Bahabry, M. M. Hussain, “Mono-crystalline Bulk Silicon Based High-Efficiency Flexible Solar Cell”, TMS Middle East - Mediterranean Materials Congress on Energy and Infrastructure Systems (MEMA 2015), Doha, Qatar, 11 – 14 January, 2015

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10) *M. T. Ghoneim, A. T. Kutbee, M. M. Hussain, “Reliability of Conformal Electronics in Curvilinear Environments: Device First vs. Device Last Approach”, 2014 IEEE Conference on Reliability Science for Advanced Materials and Devices (RSAMD 2014), Golden, Colorado, USA, 7 – 9 October, 2014

11) *A. Mayet, M. M. Hussain, “Amorphous WNx Metal For Accelerometers and Gyroscope”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

12) *M. T. Ghoneim, J. P. Rojas, A. T. Kutbee, M. M. Hussain, “Towards Ultra-High Density Fully-Flexible Inorganic Memory”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

13) **R. R. Bahabry, J. P. Rojas, A. M. Hussain, M. M. Hussain, “Novel interdigitated back contact for flexible mono-crystalline silicon solar cells”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

14) *A. T. Kutbee, S. M. Ahmed, J. M. Nassar, A. M. Hussain, M. M. Hussain, “High Lithium ion diffusivity in rf sputtered LiCoO2 thin films for Microbatteries”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

15) **R. M. Qaisi, C. E. Smith, M. M. Hussain, “Buried gate transistor for modulation of graphene channel conductance”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

16) **A. M. Hussain, E. B. Lizardo, G. A. Torres Sevilla, J. M. Nassar, M. M. Hussain, “Stretchable and Flexible Copper Conductors for Next Generation Wearable Electronics”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

17) **S. M. Ahmed, E. B. Lizardo, C. Sapsanis, K. N. Salama, M. M. Hussain, “Humidity Sensor on Flexible Semi-transparent Silicon for Smart Skin”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

18) **J. M. Nassar, M. M. Hussain, “Flexible High Speed Devices From Bulk Mono-crystalline Silicon”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

19) **E. B. Lizardo, M. M. Hussain, “RF Antennas on Flexible and Semi-Transparent Silicon Substrate”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

20) *K. K. Kalantan, J. P. Rojas, M. M. Hussain, “Contact Resistance Optimization for Enhanced Performance in Microfabricated Microbial Fuel Cells”, MRS Fall Meeting 2014, Boston, Massachusetts, USA, 30 November – 5 December, 2014

2013 (15)

21) *C. D. Young, I. Mejia, M. T. Ghoneim, M. Quevedo-Lopez, M. M. Hussain, “Reliability Investigation of Viable Device Structures for Future Flexible Electronic Applications”, International Semiconductor Device Research Symposium 2013, Maryland, USA, 11 – 13 December, 2013 [Invited]

22) *H. M. Fahad, M. M. Hussain, “Vertical Si1-xGex Channel Nanotube Field Effect Transistors for Next Generation PMOS”, IEEE Nanotechnology Materials and Devices Conference 2013, Tainan, Taiwan, 6 – 9 October, 2013

23) *J. M. Nassar, A. M. Hussain, G. A. Torres Sevilla, J. P. Rojas, H. M. Fahad, M. M. Hussain, “Transformational Electronics: High-k/Metal Gate Devices on Flexible and Semi-transparent Epitaxially Grown SiGe on Bulk Silicon (100)”, IEEE Nanotechnology Materials and Devices Conference 2013, Tainan, Taiwan, 6 – 9 October, 2013

24) *G. A. Torres Sevilla, A. M. Hussain, A. N. Hanna, M. M. Hussain, “Wavy-Channel Poly-Si Thin Film Transistor”, IEEE Nanotechnology Materials and Devices Conference 2013, Tainan, Taiwan, 6 – 9 October, 2013

25) *A. M. Hussain, H. M. Fahad, N. Singh, G. A. Torres Sevilla, U. Schwingenschlögl, M. M. Hussain, “Tin (Sn) – An Unlikely Ally for Silicon CMOS?”, IEEE Nanotechnology Materials and Devices Conference 2013, Tainan, Taiwan, 6 – 9 October, 2013

26) **A. M. Hussain, H. M. Fahad, N. Singh, K. R. Rader, G. A. Torres Sevilla, U. Schwingenschlögl, M. M. Hussain, “SiSn Channel Material for Enhanced Performance in MOSFETs”, 3rd Berkeley Symposium on Energy Efficient Electronic Systems, Berkeley, California, USA, 28 – 29 October, 2013

27) *A. N. Hanna, M. M. Hussain, “New TFT architecture for high performance low power flexible thin film oxide transistor”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

28) *A. M. Hussain, S. B. Inayat, J. P. Rojas, G. A. Torres Sevilla, M. M. Hussain, “Stretchable Silicon Fabric – Mechanics and Mechanism”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

29) *H. M. Fahad, M. M. Hussain, “Switching in Silicon Nanotube Field Effect Transistors”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

29

30) **S. M Ahmed, A. M Hussain, J. P. Rojas, M. M. Hussain, “Solid State MEMS Devices on Flexible and Semi-transparent Silicon Platform”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

31) *G. A. Torres Sevilla, A. M. Hussain, J. P. Rojas, M. M. Hussain, “Large Area Thin (70 nm) Flexible Monocrystalline Silicon for CMOS Compatible Device Integration”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

32) **J. M. Nassar, A. M Hussain, H. M. Fahad, M. M. Hussain, “Strained Si Nanowires Growth on SnO2 Catalyst”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

33) **M. T. Ghoneim, J. P. Rojas, M. M. Hussain, “Ultra Large Scale Integration of Flexible Inorganic Electronics”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

34) **R. R. Bahbary, S. B. Inayat, C. E. Smith, K. R. Rader, M. M. Hussain, “ Thermoelectricity from Building Infrastructure”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

35) **R. M. Qaisi, C. E. Smith, M. M. Hussain, “Ion Sensitivity from Back Gated Graphene Field Effect Transistor”, MRS Fall Meeting 2013, Boston, Massachusetts, USA, 1 – 6 December, 2013

2012 (12)

36) *S. B. Inayat, M. M. Hussain, “Thermoelectricity for Green Building Exterior Glasses”, The 31st International & 10th European Conference on Thermoelectrics 2012, Aalborg, Denmark, 9 – 12 July, 2012

37) **A. Emwas, M. M. Hussain, “Utilizing DOSY NMR Spectroscopy to Probe the Molecular Size of Nano-particle Materials”, 53rd Experimental Nuclear Magnetic Resonance Conference, Miami, Florida, USA, 12 April 2012

38) *S. B. Inayat, M. M. Hussain, “Transforming Window Glasses into Thermoelectric Generators for Green Building Technologies”, 2012 Asia Pacific Clean Energy Summit, Honolulu, Hawaii, USA, 12 – 15 August, 2012

39) **S. M. Ahmed, J. P. Rojas, M. M. Hussain, “Towards the Energy Chip”, 2012 Asia Pacific Clean Energy Summit, Honolulu, Hawaii, USA, 12 – 15 August, 2012

40) **J. E. Mink, M. M. Hussain, “High Performance Micro-sized Microbial Fuel Cell for Lab-On-Chip”, 2012 Asia Pacific Clean Energy Summit, Honolulu, Hawaii, USA, 12 – 15 August, 2012

41) **J. E. Mink, M. M. Hussain, “Carbon Based Nanomaterials for Micro-sized Microbial Fuel Cells”, North American - International Society of Microbial Electrochemical Technologies Meeting, Ithaca, New York, USA, 9 – 10 October 2012

42) *J. P. Rojas, M. M. Hussain, “Highly Manufacturable Fabrication Process for Mechanically Flexible Silicon based Membranes with Adjustable Size, Pore Size and Density”, MRS Fall Meeting 2012, Boston, Massachusetts, USA, 25 – 30 November, 2012

43) *H. M. Fahad, M. M. Hussain, “Vertically Aligned Epitaxial Silicon Nanowires and Tubes”, MRS Fall Meeting 2012, Boston, Massachusetts, USA, 25 – 30 November, 2012

44) *M. T. Ghoneim, C. E. Smith, M. M. Hussain, “Determination of Efficient Transfer Process for Chemical Vapor Deposition Grown Graphene” , MRS Fall Meeting 2012, Boston, Massachusetts, USA, 25 – 30 November, 2012

45) *S. B. Inayat, M. M. Hussain, “Nanomaterials Embedded Thermoelectric Windows as Solar Based Energy Harvesters for Green Building Technology”, MRS Fall Meeting 2012, Boston, Massachusetts, USA, 25 – 30 November, 2012

46) **J. E. Mink, M. M. Hussain, “Graphene Anode Integrated High-performance Mico-Sized Microbial Fuel Cell”, MRS Fall Meeting 2012, Boston, Massachusetts, USA, 25 – 30 November, 2012

47) **A. M. Mayet, M. M. Hussain, “Harsh Environment Compatible Amorphous Metal Based Nanoelectromechanical Switch and Systems”, MRS Fall Meeting 2012, Boston, Massachusetts, USA, 25 – 30 November, 2012

2011 (2)

48) *J. E. Mink, J. P. Rojas, M. M. Hussain, “CNT-Enbled Microsized Microbial Fuel Cell”, 5th Graduate Research Seminar at King Fahd University of Petroleum and Minerals (KFUPM), Dammam, Saudi Arabia, May 2011 [Best Presentation Award]

49) *J. E. Mink, J. P. Rojas, M. M. Hussain, “Carbon Nanotube Anode Producing Improved Power Density in 1.25 µl Micro-Microbial Fuel Cell”, 3rd International Microbial Fuel Cell Conference, Leeuwarden, The Netherlands, 6 – 8 June, 2011

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2010 (4) 50) *M. M. Hussain, C. S. Park, K. Tateiwa, C. Y. Kang, K. Rader, J. Huang, M. Cruz, P. Majhi, P. Kirsch, R. Jammy,

“Integration of SiGe Channel PMOS and Si NMOS into Dual Channel High-k/Metal Gate CMOS for Low Standby Power Logic Applications”, 5th International conference on SiGe Technology and Device (ISTDM) 2010, Stockholm, Sweden, 24 – 26 May, 2010

51) *M. M. Hasan, M. M. Hussain, “Carbon Nanotube Transistor in Sub-threshold Mode for Ultra-low Power Logic Circuits and SRAM”, 4th Graduate Seminar Day at King Fahd University of Petroleum and Minerals (KFUPM) 2010, Dammam, Saudi Arabia, May 2010

52) *J. E. Mink, J. P. Rojas, M. M. Hussain, “CNT-Enhanced Microfabricated Microbial Fuel Cell”, 4th Graduate Seminar Day at King Fahd University of Petroleum and Minerals (KFUPM) 2010, Dammam, Saudi Arabia, May 2010

53) *J. Oommen, M. M. Hussain, “Nano-scale Ionic Materials (NIMs)”, 4th Graduate Seminar Day at King Fahd University of Petroleum and Minerals (KFUPM) 2010, Dammam, Saudi Arabia, May 2010

Conferences before joining KAUST 2008 (1)

54) *C. D. Young, J.-W. Yang, K. Matthews, S. Suthram, M. M. Hussain, G. Bersuker, R. Harris, R. Choi, B. H. Lee, and H.-H. Tseng, “Hot Carrier Degradation in HfSiON/TiN FinFETs with Different Substrate Orientations” 15th Workshop on Dielectrics in Microelectronics (WoDiM) 2008, Berlin, Germany, 23 – 25 June, 2008

2007 (2)

55) *C. E. Smith, M. M. Hussain, B. Aguirre, P. Kalra, J. –W. Yang, G. Gebara, B. Sassman, R. Harris, H. –H. Tseng, R. Jammy, “High-k/Metal Gate Stack Engineering in FinFET Devices”, (IEEE) 2007 International Symposium on Advanced Gate Stack Technology (ISAGST), Dallas, Texas, USA, 26 – 28 September, 2007

56) *M. M. Hussain, C. Smith, S. C. Song, B. H. Lee, R. Jammy, “Metal Gate Induced Strain Engineering for High-k/Metal Gate MOSFETs”, (IEEE) 2007 International Symposium on Advanced Gate Stack Technology (ISAGST), Dallas, Texas, USA, 26 – 28 September, 2007

2006 (3)

57) *S. C. Song, M. M. Hussain, B. S. Ju, C. Y. Kang, R. Choi, P. Zeitzoff, B. H. Lee, H. –H. Tseng, “Non-planar MOSFETs with Tunable Threshold Voltage (Vt) Using ALD High-k/Metal Gate Stack”, Semiconductor Industry Association ALD Conference 2006, South Korea

58) *M. M. Hussain, S. C. Song, J. Barnett, B. S. Ju, B. W. Sassman, B. H. Lee, ”Realization of high-k/metal gate stack in dual metal gate CMOS: an integration perspective”, International Symposium on Advanced Gate Stack Technology (ISAGST), 2006¸ Austin, Texas, USA, September, 2006

59) *J. Barnett, M. Hussain, J. Peterson, P. Kirsch, S. C. Song, C. S. Park, G. Bersuker, B. H. Lee, H. R. Huff, ”Surface Preparation Technique Used for Fabricating High-k/Metal Gate Device Structures”, 2006 ECS International Semiconductor Technology Conference (ECS-ISTC), Shanghai, China, 21 – 23 March, 2006

2005 (3)

60) *M. M. Hussain, N. Moumen, J. Barnett, J. Saulters, D. Baker, “SC1: An Effective Etch Solution for Nano-scale CMOS”, Surface Preparation and Cleans Conference (SPCC), 2005, Austin, Texas USA, 26 – 28 September. 2005

61) *J. Barnett, N. Moumen, J. Peterson, M. Hussain, G. Bersuker, “The Role of Surface Preparation in the Implementation of High-κ Dielectrics for 45nm and Beyond”, Proceedings of the SCP 9th International Symposium on Wafer Cleaning and Surface Preparation, 8 – 9 June, 2005

62) *Z. Zhang, M. M. Hussain, J. Burnett, C. Huffman, S. C. Song, B. H. Lee, “Integration Options for Dual Metal/High-k Gate CMOS”, International Symposium on Advanced Gate Stack Technology (ISAGST), 2005, Austin, Texas, USA, September 2005

Patents US Patents Awarded = 6, US and International Patent Applications (various stages) = 50+

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1. 7,736,954, Awarded on 15 June 2010: Methods for nanoscale feature imprint molding, Hussain; Muhammad Mustafa (Austin, TX), Moumen; Naim (Walden, NY), Gebara; Gabriel (Austin, TX), Labelle; Ed (Austin, TX), Lanee; Sidi (Austin, TX), Sassman; Barry (Cedar Park, TX), Jammy; Raj (Austin, TX)

2. 9,203,010, Awarded on 1 December 2015: Apparatuses and systems for embedded thermoelectric generators, Hussain; Muhammad M. (Thuwal, SA), Inayat; Salman Bin (Thuwal, SA), Smith; Casey Eben (Thuwal, SA)

3. 9,209,083, Awarded on 8 December 2015: Integrated circuit manufacturing for low-profile and flexible devices, Hussain; Muhammad M. (Austin, TX), Rojas; Jhonathan P. (Thuwal, SA)

4. 9,224,813, Awarded on 29 December 2015: Cylindrical-shaped nanotube field effect transistor, Hussain; Muhammad M. (Thuwal, SA), Fahad; Hossain M. (Thuwal, SA), Smith; Casey E. (Thuwal, SA), Rojas; Jhonathan P. (Thuwal, SA) [Also issued as PCT National Phase]

5. 9,515,245, Awarded on 6 December 2016: Apparatus, system, and method for on-chip thermoelectricity generation, Hussain; Muhammad M. (Austin, TX), Fahad; Hossain M. (Thuwal, SA), Rojas; Jhonathan P. (Thuwal, SA)

6. 9,520,293, Awarded on 13 December 2016: Method for producing mechanically flexible silicon substrate, Hussain; Muhammad M. (Austin, TX), Rojas; Jhonathan P. (Thuwal, SA) [Also issued as PCT National Phase as well as in Japan and in South Korea]

RESEARCH FUNDS King Abdullah University of Science and Technology 1. Large Scale Integration of Polymer Based Autonomous Switch Matrix Patch for Wirelessly Controlling

Electric Utility. SABIC. PI: M. M. Hussain. Co-PI: None. Start Date: 01 July 2016 and End Date: 31 December 2018 ($796,706)

2. Biometric data based crowd management and risk mitigation for high population event: from wearable human-machine interface hardware to data management and analytics. KAUST-KFUPM Special Initiative Grant. PI: M. M. Hussain. Co-PIs: J. Shamma, B. Ghanem, K. Salama. Start Date: 01 July 2016 and End Date: 30 Jun 2019. (My share: $419,782 out of total grant $813,600).

3. High Efficiency (>45%) Per Dollar Solar Cell Using Heterogeneous Materials (MRL/TRL 4 or Above) and highly Manufacturable Technologies Involving CMOS Technology Based Lift-off and Transfer Printing. KAUST Economic Development and Innovation Technology Transfer Proof of Concept Fund. PI: M. M. Hussain. Co-PI: J. A. Rogers (University of Illinois at Urbana-Champaign, Illinois, USA). Start Date: 01 June 2015 and End Date: 31 May 2016. ($199,950).

4. Capital Equipment Grants for BESI Datacon 2200 Evo Plus. KAUST Central Capital Equipment Procurement Funds Managed by VPR Office. PI: M. M. Hussain. Co-PI: None. Start Date: 01 May 2016 and End Date: N/A ($305,000).

5. Coupled Animal and Artificial Sensing for Sustainable Ecosystems. Sensor Innovation Grant 2015. PI: Carlos Durrate. Co-PI: M. M. Hussain. Start Date: 01 January 2016 and End Date: 31 December 2018 (My share: $500,000 out of total grant $2,514,431).

6. KAUST-NSF Research Conference on Electronic Materials, Devices and Systems for A Sustainable Future 2016. KAUST-OCRF Support of Conference and Workshops Program. PI: M. M. Hussain. Co-PI: None. Start Date 14 March 2016 and End Date: 16 March 2016 (85,000 by KAUST OCRF, $12,000 by US National Science Foundation).

7. Graphene based stretchable and trasnaprent antenna. KACST-Lockheed Martin Grant 2014. PI: M. M. Hussain. Co-PI: A. Shamim. Start Date: 01 April 2015 and End Date: 31 March 2016 (My share: $70,000 out of total grant $100,000).

8. KAUST-NSF Research Conference on Electronic Materials, Devices and Systems for A Sustainable Future 2015. KAUST-OCRF Support of Conference and Workshops Program. PI: M. M. Hussain. Co-PI: None. Start Date 14 February 2015 and End Date: 16 February 2015 (80,000 by KAUST OCRF, $25,000 by US National Science Foundation).

9. Nanowire Thermoelectric Generator (a.k.a. Broadband Nanowire Array). Boeing Company Research Grant 2014. PI: M. M. Hussain. Co-PI: N/A. Start Date: 01 December 2014 and End Date: 30 November 2017. ($523,235).

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10. KAUST-NSF Research Conference on Electronic Materials, Devices and Systems for A Sustainable Future 2014. KAUST-OCRF Support of Conference and Workshops Program. PI: M. M. Hussain. Co-PI: None. Start Date 4 February 2016 and End Date: 6 February 2014 (72,000 by KAUST OCRF, $15,000 by US National Science Foundation).

11. Capital Equipment Grants for KJ Leskar Vacuum Deposition. KAUST Central Capital Equipment Procurement Funds Managed by VPR Office. PI: M. M. Hussain. Co-PI: None. Start Date: 01 October 2014 and End Date: N/A ($325,000).

12. Nanomanufacturing of Mechanically Flexible Silicon for Multi-functional Applications. KAUST-OCRF Competitive Research Grant (CRG-1) 2012. PI: M. M. Hussain. Co-PIs: Z. Lai, S. Banerjee (University of Texas at Austin, Texas, USA). Start Date: 01 September 2012 and End Date: 31 August 2015. (My share: $966,500 out of total grant $1,444,470).

13. Capital Equipment Grants for Keithley Advanced Pack. KAUST Central Capital Equipment Procurement Funds Managed by VPR Office. PI: M. M. Hussain. Co-PI: None. Start Date: 01 August 2013 and End Date: N/A ($75,000).

14. Capital Equipment Grants for Semiautomated Probe Station and DCG Systems d-Prober. KAUST Central Capital Equipment Procurement Funds Managed by VPR Office. PI: M. M. Hussain. Co-PI: None. Start Date: 01 July 2011 and End Date: N/A ($1,750,000).

15. Electrical Engineering for Sustainable Future Symposium 2012. KAUST-OCRF Support of Conference and Workshops Program. PI: M. M. Hussain. Co-PI: None. Start Date 12 February 2012 and End Date: 16 February 2012 (58,000).

16. Experimental Study of Silicon Nanotube FET. KAUST Economic Development Technology Transfer Office Special Grant. PI: M. M. Hussain. Co-PI: N/A. Start Date: 01 January 2012 and End Date: 31 August 2013. ($145,000).

17. Nanotechnology Enabled Mass Scale Thermoelectric Energy Scavenging. KAUST Global Collaborative Research (GCR) GRP Collaborative Fellow (GRP-CF) 2011. PI: M. M. Hussain. Co-PI: B. J. Huang (National Taiwan University, Taipei, Taiwan). Start Date: 01 January 2011 and End Date: 31 December 2012. ($55,766).

18. Integrated Microsystems for Water Purification, Desalination and Energy Sustainability. KAUST Global Collaborative Research (GCR) GRP Collaborative Fellow (GRP-CF) 2011. PI: M. M. Hussain. Co-PI: B. E. Logan (Pennsylvania State University, Pennsylvania, USA). Start Date: 01 January 2011 and End Date: 30 June 2013. ($69,016).

19. Chip-scale High Energy Electron Manipulation. KAUST Global Collaborative Research (GCR) GRP Collaborative Fellow (GRP-CF) 2011. PI: M. M. Hussain. Co-PI: A. Lal (Cornell University, Ithaca, New York, USA). Start Date: 01 June 2011 and End Date: 31 May 2014. ($106,454).

20. Self-assembled materials for self-recovery. KACST DRG 2010. PI: N. Khashab. Co-PI: M. M. Hussain. Start Date: 01 January 2012 and End Date: 31 December 2014 (My share: $40,000 out of total grant $120,000).

21. Carbon based RF Electronics and Circuits. KACST GDRG 2010. PI: M. Sharawi (KFUPM). Co-PIs: M. M. Hussain, A. Shamim. K. Salama. Start Date: 01 January 2010 and End Date: 31 December 2012 (My share: $110,000 out of total grant $375,000).

22. Toward Efficient Nanoelectronic Systems for Biomedical Sensing. Academic Excellence Award 2010. PI: J. Kosel and Y. Gianchandani (University of Michigan at Ann Arbor, Michigan, USA). Co-PIs: M. M. Hussain, K. Salama, I. Foulds, K. Najafi, E. Yoon, D. Sylvester (University of Michigan at Ann Arbor, Michigan, USA). Start Date: 01 May 2010 and End Date: 30 April 2012. (My share: $105,000 out of total grant $1,260, 000).

23. Nanomaterials for thermoelectric generator. GCR Special Academic Partner (SAP) Award. PI: M. M. Hussain. Co-PI: H. C. Zeng (National University of Singapore, Singapore). Start Date: 01 October 2010 and End Date: 30 September 2012. ($80,000).

24. GRP External Lab Access (GRP-ELA) 2010. PI: M. M. Hussain. Co-PI: N/A. Start Date: 01 June 2010 and End Date: 31 August 2010. ($38,100).

USA 1. DARPA NEMS: Nanoelectromechancial Switch. United States Defense Advanced Research Project Agency

(US DARPA). PI: T. –J. King Liu (University of California at Berkeley) and H. –S. P. Wong (Stanford University). Co-PI: M. M. Hussain (SEMATECH, Inc., Austin, Texas, USA). Start Date: 01 September 2008 and End Date: 31 August 2012. (My share: $700,000 out of total grant $8,000,000).

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2. DARPA STEEP: Scalable Steep-subthreshold-slope Transistor Technology. United States Defense Advanced Research Project Agency (US DARPA). PI: C. Hu (University of California at Berkeley). Co-PI: M. M. Hussain (SEMATECH, Inc., Austin, Texas, USA). Start Date: 01 April 2008 and End Date: 31 March 2013. (My share: $3,200,000 out of total grant $7,500,000).

3. DARPA CERA: Ultra-high Performance Scalable RF MOSFETs with Graphene Channel on Large Scale CMOS Compatible Substrates. United States Defense Advanced Research Project Agency (US DARPA). PI: J. Woo (University of California at Los Angeles). Co-PI: M. M. Hussain (SEMATECH, Inc., Austin, Texas, USA). Start Date: 01 July 2008 and End Date: 30 June 2012. (My share: $751,150 out of total grant $2,800,000).

RESEARCH SUPERVISED PhD: Advisor

PhD Graduated: 13 1. Salman Inayat, Electrical Engineering; Nano-micro materials enabled thermoelectricity from window

(Start date: Spring 2010; Graduated: Fall 2012, Presently Process Integration Engineer, TSMC, Santa Clara, California, USA)

2. Justine Mink, Environmental Science and Engineering; Advanced nano-materials integrated micro-fabricated microbial fuel cell (Start date: Spring 2011; Graduated: Fall 2013, Presently Research Engineer, DOW Chemical, New York, USA)

3. Hossain Fahad, Electrical Engineering; 3D Nanotube Field Effect Transistors for Hybrid High-Performance and Low-Power Operation with High Chip-Area Efficiency (Start date: Spring 2011; Graduated: Spring 2014, Presently Postdoctoral Fellow, Berkeley Sensors and Actuators Sensor, University of California, Berkeley, California, USA)

4. Jhonathan Rojas, Electrical Engineering; Towards Flexible Self-powered Micro-scale Integrated Systems (Start date: Spring 2011; Graduated: Spring 2014, Presently Assistant Professor, Electrical Engineering, King Fahd University of Petroleum and Minerals (KFUPM) Dhahran, Saudi Arabia)

5. Ramy Qaisi, Electrical Engineering; Multi-functional applications of graphene (Start date: Summer 2011; Graduated: Fall 2016, Presently Assistant Professor, Electrical and Computer Engineering, Jeddah University, Jeddah, Saudi Arabia)

6. Abdulilah Mayet, Electrical Engineering; Amorphous metal tungsten nitride and its applications for micro and nanoelectromechanical applications (Start date: Fall 2011; Graduated: Spring 2016, Chief Technology Officer, SEMC, Jeddah, Saudi Arabia)

7. Galo Torres Sevilla, Electrical Engineering; High performance electronics on flexible silicon (Start date: Spring 2013; Graduated: Fall 2016, Research Scientist, EPMA, Dübendorf, Switzerland).

8. Aftab Hussain, Electrical Engineering; Extending Moore’s law for Si CMOS with device geometry and material interplay (Start date: Spring 2013; Graduated: Fall 2016, Post Doctoral Fellow, School of Engineering and Applied Science, Harvard University, Cambridge, Massachussetts, USA].

9. Mohamed Ghoneim, Electrical Engineering; Flexible memory devices: materials, processes, devices, functionality and reliability (Start date: Spring 2013; Graduated: Fall 2016, Post Doctoral Fellow, MIT Media Lab, MIT, Cambridge, Massachussetts, USA].

10. Amir Hanna, Electrical Engineering; Non-planar nanotube and wavy transistors (Start date: Fall 2013; Graduated: Fall 2016, Post Doctoral Fellow, Electrical Engineering, UCLA, Los Angeles, California, USA).

11. Joanna Nassar, Electrical Engineering; Affordable and Scalable Manufacturing of Wearable Multi-Functional Sensory “Skin” for Internet of Everything Applications (Start date: Summer 2014; Graduated: Fall 2017, Post Doctoral Fellow, Medical Engineering, Caltech, Pasadena, California, USA)

12. Arwa Kutbee, Material Science and Engineering; Integration strategy for free form solid-state battery for wearable and implantable electronics (Start date: Fall 2013; Graduated: Fall 2017, Assistant Professor, King AbdulAziz University, Saudi Arabia).

13. Rabab Bahabry, Material Science and Engineering; Toward cost effective crystalline silicon photovoltaics: integration strategy by rational design of materials, process and devices (Start date: Summer 2013; Graduated: Fall 2017, Assistant Professor, King AbdulAziz University, Saudi Arabia)

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PhD Candidates: 3

14. Adrian Sepulveda, Material Science and Engineering; Integration strategy for free form solid-oxide fuel cells for wearable electronics (Start date: Spring 2016; Expected Graduation: Fall 2017)

15. Kalthom Kalantan, Environmental Science and Engineering; Alternate usage of macor and micro-scale microbial fuel cells (Start date: Spring 2014; Expected Graduation: Summer 2017)

16. Amani Almuslem, Electrical Engineering; Integration strategy for skin-type multi-sensory transient platform for harsh environment applications (Start date: Spring 2014; Expected Graduation: Spring 2018) PhD Students: 3

17. Sohail Sheikh, Electrical Engineering; Integration strategy for freeform 3D-IC for implantable and wearable electronic applications (Start date: Fall 2015; Expected Graduation: Spring 2019)

18. Maha Nour, Electrical Engineering; Wearable devices for aquatic environment (Start date: Fall 2016; Expected Graduation: Spring 2020)

19. Sherjeel Khan, Electrical Engineering; Manufacturable smart textiles (Start date: Fall 2016; Expected Graduation: Spring 2020)

PhD: Dissertation Committee 1. Mohamed Zidan, PhD Advisor: K. N. Salama, Program: Electrical Engineering; Memristor Circuits and

Systems (Start date: Fall 2011; Graduated: Spring 2015). 2. Ibrahim Ali, PhD Advisor: Tahar Laoui, Mechanical Engineering (KFUPM); Large Area Growth of Graphene

(Start date: Fall 2011; Graduated: Spring 2015). 3. Kaloni Thaneshwor, PhD Advisor: U. Schwingenschlogl, Program: Material Science and Engineering;

Impact of Doping on 2D Atomic Materials (Start date: Spring 2011; Graduated: Fall 2013). 4. Yasir Saeed, PhD Advisor: U. Schwingenschlogl, Program: Material Science and Engineering; 1st Principles

Study of Layered Thermoelectric Materials for Energy Harvesting (Start date: Fall 2010; Graduated: Summer 2014).

5. Hang Li, PhD Advisor: A. Manchon, Program: Material Science and Engineering; Spin Transfer Torque in Diluted Magnetic Semiconductor (Start date: Spring 2013; Expected Graduation: Fall 2016).

6. Jiwuer Jilili, PhD Advisor: U. Schwingenschlogl, Program: Material Science and Engineering; 1st Principles Study of Half-metallic Heterostructures (Start date: Spring 2013; Graduated: Summer 2016).

7. Collins Akosa, PhD Advisor: A. Manchon, Program: Material Science and Engineering; Thermally Assisted Spin Transfer Torque in Magnetic Hetero-structures (Start date: Spring 2013; Graduated: Fall 2016).

8. Arwa Albar, PhD Advisor: U. Schwingenschlogl, Program: Material Science and Engineering; Defect Engineering and Interface Phenomenta in Tin Oxide (Start date: Summer 2013; Graduated: Spring 2017).

9. Salawu Omotayo Akande, PhD Advisor: U. Schwingenschlogl, Program: Material Science and Engineering; First Principles Studies of Perovskites for Intermediate Temperature Solid Oxide Fuel Cell Cathodes (Start date: Spring 2013; Gradauted: Spring 2017)

MS: Advisor 1. Jhonathan Rojas, Electrical Engineering, Advanced nanofabrication process development for self-powered

SoC (Start date: Fall 2009; Graduated: Fall 2010, Completed PhD under my supervision. Presently Assistant Professor, Electrical Engineering, King Fahd University of Petroleum and Minerals (KFUPM) Dhahran, Saudi Arabia)

2. Hossain Fahad, Electrical Engineering, Cylindrical Field Effect Transistor: A Full Volume Inversion Device (Start date: Fall 2009; Graduated: Fall 2010, Completed PhD under my supervision. Presently Postdoctoral Fellow, Berkeley Sensors and Actuators Sensor, University of California, Berkeley, California, USA)

3. Md. Hasan, Electrical Engineering, Work Function Tuning in Sub-20 nm Titanium Nitride (TiN) Metal Gate: Mechanism and Engineering (Start date: Fall 2009; Graduated: Summer 2011, Presently PhD Candidate, Electrical Engineering, University of Saskatchewan, Canada)

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4. Galo Torres Sevilla, Electrical Engineering, Nanomanufacturing of Flexible Silicon based Wearable Thermoelectric Generators (Start date: Fall 2011; Graduated: Summer 2012, Presently PhD Candidate under my supervision, Electrical Engineering, KAUST)

5. Mohamed Ghoneim, Electrical Engineering, Efficient Transfer of Graphene – Physical and Electrical Performance Perspective (Start date: Fall 2011; Graduated: Summer 2012, Presently PhD Candidate under my supervision, Electrical Engineering, KAUST)

6. Aftab Hussain, Electrical Engineering, Tin (Sn) – An Unlikely Ally to Extend Moore’s Law in Silicon CMOS? (Start date: Fall 2011; Graduated: Summer 2012, Presently PhD Candidate under my supervision, Electrical Engineering, KAUST)

7. Sally Ahmed, Electrical Engineering, M/NEMS Devices on Flexible Silicon Fabric (Start date: Fall 2011; Graduated: Spring 2013, Presently PhD Student, Electrical Engineering, KAUST)

8. Joanna Nassar, Electrical Engineering, Transformational Electronics: Towards Flexible Low-Cost High Mobility Channel Materials (Start date: Spring 2013; Graduated: Spring 2014, Presently PhD Candidate under my supervision, Electrical Engineering, KAUST)

9. Maha Nour, Electrical Engineering, Transformational III-V Electronics (Start date: Spring 2013; Graduated: Spring 2014, Presently Research Engineer, Saudi ARAMCO)

10. Nasir Alfaraj, Electrical Engineering, Reversibly Bistable Flexible Electronics (Start date: Summer 2014; Graduated: Summer 2015, Presently PhD Student, Electrical Engineering, KAUST)

MS: Thesis Committee 1. Thirupathi Maloth, (Advisor: G. Lubineau); Features of Random Metal Nanowire Networks with

Application in Transparent Conducting Electrodes (Start date: Fall 2015; Graduated: Spring 2017). 2. Muhammad Akram Karimi, (Advisor: A. Shamim); Low Cost and Conformal Microwave Water-cut Sensor

for Optimizing Oil Production Process (Start date: Fall 2013; Graduated: Summer 2015). 3. Bauyrzhan Krykpayev, (Advisor: A. Shamim); A WiFi Tracking Device Printed Directly on Textile for

Wearable Electronics Applications (Start date: Spring 2014; Graduated: Fall 2015). 4. Adnan Khan, (Advisor: A. Shamim); Investigation of MIM diodes for RF applications (Start date: Fall 2013;

Graduated: Spring 2015). 5. Hsien-Yu Liao, (Advisor: B. Ooi); Fabrication and Characterization of Micro-membrane GaN Light Emitting

Diodes (Start date: Fall 2013; Graduated: Spring 2015). 6. Saad Iliyas, (Advisor: M. Younis, Mechanical Engineering); Investigation of Static and Dynamic Behavior of

A Micro Mirror (Start date: Fall 2013; Graduated: Fall 2014). 7. Abdul Talukdar, (Advisor: M. Younis, Mechanical Engineering); Nonlinear Dynamics of Memristor based

2nd and 3rd Order Oscillators (Start date: Fall 2009; Graduated: Spring 2011). 8. Khaled Ramadan, (Advisor: I. Foulds); SU-8 based MEMS Process with Two Metal Layers Using α-Si As A

Sacrificial Material (Start date: Fall 2010; Graduated: Spring 2012). 9. Paul Ehrlich, (Advisor: I. Foulds); Fabrication of 3D Microfluidic Devices by Thermal Bonding of Thin

Polymer Films (Start date: Fall 2010; Graduated: Summer 2012).

Postdoc supervised 1. Name: Nazek Elatab

o Start date: October 2017 o Field of study: Electrical Engineering o Previous institution awarding degree: Masdar Institute of Technology, UAE o Current position/location: Continuing as post doc in my group

2. Name: Nadeem Qaiser o Start date: April 2017 o Field of study: Mechanical Engineering o Previous institution awarding degree: KAIST, Korea o Current position/location: Continuing as post doc in my group

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3. Name: Woojin Park o Start date: April 2016 o Field of study: Electrical Engineering o Previous institution awarding degree: GIST, Korea o Current position/location: Continuing as post doc in my group

4. Name: Galo Torres Sevilla o Start date: October 2016 o Field of study: Electrical Engineering o Previous institution awarding degree: Electrical Engineering, KAUST o Current position/location: Continuing as post doc in my group

5. Name: Devendra Singh o Start date: November 2015 o Field of study: Applied Physics o Departure date: December 2016 o Previous institution awarding degree: Indian Institute of Technology (IIT), Mumbai o Current position/location: Continuing as post doc in Prof. Gilles Lubineau’s group.

6. Name: Abdurrahman Gumus

o Start date: April 2015 o Field of study: Electrical Engineering o Departure date: August 2016 o Previous institution awarding degree: Cornell University o Current position/location: Faculty, Izmir Institute of Technology

7. Name: Amer Diab o Start date: October 2013 o Field of study: Electrical Engineering o Departure date: January 2015 o Previous institution awarding degree: IMEP-LAHC, INP-Grenoble, France o Current position/location: Device Engineer, CEA-LETI, Grenoble, France

8. Name: Hussam Kloub o Start date: April 2010 o Field of study: Microsystems Engineering o Departure date: April 2012 o Previous institution awarding degree: University of Freiburg, Germany o Current position/location: Assistant Professor, German Jordanian University, Jordan

9. Name: Qiang Yuan o Start date: October 2010 o Field of study: Chemistry o Departure date: September 2012 o Previous institution awarding degree: Xiamen University, China o Current position/location: Faculty, Guizhou University, China

10. Name: Arthur Useinov o Start date: September 2009

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o Field of study: Applied Physics o Departure date: August 2008 o Previous institution awarding degree: University of Ukraine, Ukraine o Current position/location: Research Scientist, Tsinghua University

UNIVERSITY SERVICE AND OUTREACH University Committees

2011 – present Chair, Admissions Committee, Electrical Engineering 2011 – present Faculty Mentor, SRSI Hosted Saudi Students 2010 – 2017 Member, Faculty Search Committee, Electrical Engineering 2014 – 2017 Program Chair, KAUST-NSF Research Conference on Electronic Materials, Devices and

Systems for A Sustainable Future 2016 Faculty Member, SRSI Admissions Committee 2015 Member, WEP 2015 Program Committee 2010 – 2012 Member, KANF User Committee 2010 – 2012 Elected Member, KAUST Academic Council 2010 – 2011 Member, Analytical Chemistry Core Facilities

Outreach PROFESSIONAL SERVICE Editorial Responsibility:

2015 – 2018 Editor, IEEE Transactions on Electronic Devices 2010 - present Editor-in-Chief for Applied Nanoscience published by Springer-Nature

Long-term Committee Membership:

2017 – present Vice Chair, IEEE Region 8 Electron Devices Society 2016 – present Member, IEEE Electron Devices Society Electronic Materials Committee 2006 – present Member, US NSF Grants Review Panels

Organization Committee:

2017 Member, Technical Program Committee, IEEE Asian Electron Device Meeting 2017, Japan 2017 Session Organizer, Invited Only Sessions on Compliant Electronics for Vehicular and Robotics

Technology, SPIE 2017, Annaheim, CA, 9 April – 12 April 2017 2016 Session Organizer, Invited Only Sessions on What Can Be The Killer Application For Flexible-

Stretchable-Reconfigurable Electronics? SPIE 2016, Baltimore, 18 April – 22 April 2016 2015 Session Organizer, Invited Only Sessions on Flexible Electronics: Multifaceted Evolutions and

Applications, SPIE 2015, Baltimore, 20 May – 24 April 2014 2014 Session Organizer, Invited Only Sessions on Flexible, Stretchable, Biodegradable Electronics, SPIE

2014, Baltimore, 5 May – 9 May 2014 2014 Session Organizer, Invited Only Sessions on 1D Nanoelectronics: Nanowire and Nanotube

Architecture Transistors, SPIE 2014, Baltimore, 5 May – 9 May 2014 2013 Member, Scientific Committee, E-MRS 2014: Materials Research for Group IV Semiconductors :

growth, characterization and technological developments, Lille, France 2014 2013 Member, Technical Program Committee, 3rd International Conference on Consumer Electronics,

Communications and Networks (CECNet 2013), Beijing, China, 20 Nov – 22 Nov 2013 2013 Member, International Organizing Committee, 'International Conference on Green Energy and

Technology' (ICGET), University of Kitakyushu, Fukuoka, Japan, 24 Aug – 26 Aug 2013

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2013 Session Organizer, Invited Only Sessions on Flexible and Wearable Electronics for Defense Applications, Micro-Nanotechnology Sensors, Systems, and Applications Conference, SPIE Defense, Security and Sensing Symposium 2013, Baltimore, 29 April – 3 May 2013

2013 Member, Program Committee, SPIE Nanoepitaxy: Materials and Devices IV, San Diego, 25 Aug – 29 Aug 2013

2013 Invited, Gordon Research Conference 2013 on “Nanomaterials for Applications in Energy Technology”, Ventura Beach Marriott in Ventura CA United States, 3 Feb – 8 Feb 2013

2012 Member, Program Committee, 2nd Saudi International Nanotechnology Conference (2SINC), Riyadh, 11 Nov – 13 Nov 2012

2011 Member, International Organizing Committee, DDS-NANO, Brooklyn, 29 Aug – 2 Sep 2011 2010 Member, Program Committee, SPIE Optics and Photonic Meeting, San Diego, 1 Aug – 5 Aug 2010

Session Chairing: • Session Chair, Compliant Electronics for Vehicular and Robotics Technology, SPIE 2017, Annaheim,

California, April 2017 • Session Chair, What Can Be The Killer Applications For Flexible-Stretchable-Reconfigurable Electronics?,

SPIE, Baltimore, April 2016 • Session Chair, Flexible Electronics: Multifaceted Evolutions and Applications, SPIE, Baltimore, April 2015 • Session Chair, 1D Nanoelectronics, SPIE, Baltimore, May 2014 • Session Chair, Flexible, Stretchable, Biodegradable Electronics, SPIE, Baltimore, May 2014 • Session Chair, Flexible and Wearable Electronics for Defense Applications, SPIE, Baltimore, 2 May 2013 • Session Chair, Si and Ge Nanocrystals, E-MRS, Strasbourg, France, 14 March – 18 March 2012 Outreach: • Hosted 19 undergrad and graduate students from all over the world. • High school students’ research experience at The KAUST Schools (TKS) – this program facilitates long term

research internship for the students from 9th grade to senior year to work with a PhD student. As of today 11 TKS students have participated in the program. Three (3) co-authored 3 journal papers: Advanced Materials 2014 (Cover Article), ACS Nano 2015 and Appl. Phys. Lett. 2014.

• Junior and senior year Saudi school students’ summer research experience – this program is facilitated by Saudi Research Science Institute (SRSI) framed after the model of RSI administered by MIT. As of today 6 students have participated in our research under the SRSI program.

• Since 2010, we have been regularly performing outreach activities to host TKS students in our lab as well as visiting them to discuss research projects to inspire them for science, engineering and math.

• Made and released scientific video documentary in You Tube (viewed more than 15,000 times). Reviewer for Journals • Institute of Electrical and Electronics Engineers (IEEE): EDL, TED, JMEMS, TVLSI • American Chemical Society (ACS): Nano Lett. ACS Nano, Env. Sci. Tech. Appl. Mater. Interface. • American Institute of Physics (AIP): Appl. Phys. Lett., J. Appl. Phys. • Materials Research Society (MRS): MRS Bulleting, JEM, JMRS • Electrochemcial Society (ECS): ESL, JECS • American Vacuum Society (AVS): JVST A, JVST B • Elsevier: Many • Institute of Physics (IoP): Nanotechnology, SS & T, JMM • Royal Society of Chemistry (RSC): Energy Environmental Science, Nanoscale • Wiley-VCH: Adv. Mater., Adv. Funct. Mater. Small, Adv. Elec. Mater., pss-RRL, pss-A, Energy Tech. • AAAS: Sci. Adv.