mrs spring 2014 session locator

SYMPOSIUM LOCATION MONDAY TUESDAY WEDNESDAY THURSDAY FRIDAY

AM PM AM PM Poster AM PM Poster AM PM Poster AM PM

A Film-Silicon Science and Technology

Marriott Marquis Golden Gate Level Salon B

Tutorial (Moscone, Level 2, Room 2002)


A1: Amorphous and Nanocrystalline Films and Devices

A2: Advanced Characterization and Simulation

A3: Photon Management in Thin Film Silicon

A A4: Si Heterojunction Cells, Contact and Interface Passivation

A5: Layer Transfer, Kerfless Si Materials and Devices

A6: Novel Materials and Epitaxial Growth on Si

A7: Silicon Nanostructures and Related Novel Materials (Moscone West, Level 3, Room 3012)

A8: Atomistic Simulation of Si Nanostructures and Thin Film Properties (Moscone West, Level 3, Room 3012)

A9: Silicon Film Based Novel Devices (Moscone West, Level 3, Room 3012)

A10 A11 A12 A13 A14 A15 A16

A17: Laser Processing of Film Silicon (Moscone West, Level 3, Room 3012)

A18: Advances in Contact Passivation and Silcon Layer Fabrication (Moscone West, Level 3, Room 3012)

B Organic and Inorganic Materials for Dye-Sensitized Solar Cells

Westin 2nd Floor Metropolitan I

B1: Organic/Inorganic Materials I B2: Devices and Performance I

B3: Organic/Inorganic Materials II B4: Devices and Performance II

B B5: Organic/Inorganic Materials III

B6: Devices and Performance III

B7: Organic/Inorganic Materials IV

B8: Devices and Performance IV

B9 B10: Organic/Inorganic Materials V

B11: Devices and Performance V

B12: Organic/Inorganic Materials VI

B13: Devices and Performance VI

C Synthesis and Processing of Organic and Polymeric Materials for Semiconductor Applications

Westin 2nd Floor Metropolitan III

C1: Organic Thin Film I (Moscone West, Level 2, Room 2007

C2: Organic Thin Film II: Processing and Modelling (Moscone West, Level 2, Room 2007

C3: Dyes for Photovoltaics I C4: Organic PVs: Physics I

C5: Organic PVs: Physics II C6 C C7: Organic PVs: Interfacial Studies

C8: Organic PVs: Light Management

C9: Dyes for Photovoltaics II C10: OLED Materials and Device

C11: Organic Thin Film III: Morphology, Transport and Characterization

C12 C13: Organic PVs: Thin Film Morphology I (Moscone West, Level 2, Room 2007

C14: Organic PVs: New Processing Method (Moscone West, Level 2, Room 2007)

C15: Organic PVs: Thin Film Morphology II (Moscone West, Level 2, Room 2007)

C16: Dyes for Photovoltaics III (Moscone West, Level 2, Room 2007)

D Materials for Photoelectrochemical and Photocatalytic Solar-Energy Harvesting and Storage

Westin 2nd Floor Metropolitan II

D1: Overview of Solar Hydrogen Production by PEC

D2: Metal Oxides for Solar Fuels - TiO2

D D3: Photocatalytic and Molecular Approach to Solar Fuels

D4: Metal Oxides for Solar Water Splitting - Hematite

D5 D6: Carbon Dioxide Reduction and New Electrocatalysts

D7: Metal Oxides for Solar Fuel Production - Electrocatalysts, TiO2, and Beyond

D8 D9: Materials for Solar Fuels - BiVO4, Nitrides, and Chalcogenides (Moscone West, Level 2, Room 2009)

D10: New Characterizations and Computational Approaches (Moscone West, Level 2, Room 2009)

E Earth-Abundant Inorganic Solar-Energy Conversion

Westin 3rd Floor Franciscan I

E/H: Tutorial (Moscone,

Level 2, Room 2003)

E/H: Tutorial (Moscone, Level 2, Room 2003)

E1: Binary Sulfide PV AbsorbersE2: Iron Sulfide Based PV Absorbers

E3: PV Research Strategies E4: PV Interfaces

E5 E E6: CZTS Defects E7: Copper Sulfide Based

PV Absorbers"

E8: CZTS PV Devices E9: Status of the Earth-

Abundant PV Field

E10 E11: PEC Absorbers

E12/LL10: Joint Session: Transparent Conductors for Solar Energy and Related Applications (Moscone West, Level 3, Room 3009)

E13: Oxide PV Absorbers E14: Pnictide PV Absorbers

E15 E16: CZTS Growth (Moscone West, Level 2, Room 2000)

E17: CZTS Structure (Moscone West, Level 2, Room 2000)

F Controlling the Interaction between Light and Semiconductor Nanostructures for Energy Applications

Marriott Marquis Golden Gate Level Salon C

F1: Carrier Dynamics and Transport F2: Photovoltaics F F3/EE4: Joint Session: Quantum Dot Solar Cells

(Moscone West, Level 3, Room 3003)

F4: LEDs and Luminesence F5 F6/UU7: Joint Session: Photo-Energy Conversion


F7/UU8: Joint Session: Photovoltaics


F8: Novel Approaches to Energy (Moscone West, Level 3, Room 3020)

F9 F10: Light Management (Moscone West, Level 3, Room 3020)

G Photoactivated Chemical and Biochemical Processes on Semiconductor Surfaces

Westin 3rd Floor Franciscan II

G1: Organic/Inorganic Hybrids G2: Understanding Charge Transfer

at Interfaces

G3: Tailored Interfaces for Charge Transfer and Stabilization

G4: Metal/Semiconductor Nanocomposites: From Catalysis to Sensing

G G5: Photochemical Reactions on Semiconductor Surfaces

G6: Photoelectrochemcial Properties of GaN and Related Materials

G7: Semiconductor Quantum Dots and Nanoparticles

G8: Carbon-Based Materials for Photocatalysis

G9 G10 G11

G12: Semiconducting Oxides for Photocatalysis

G13: Mesa- and Nanostructured Semiconducting Oxides for Photoelectrochemistry

H Defect Engineering in Thin-Film Photovoltaic Materials

Westin 3rd Floor City

H/E: Tutorial (Moscone, Level 2, Room 2003)


H1: CdTe & CIG H2: Theories H H3: Other Thin Film PV Defect Engineering

H4: Characterization H5: Multijunction/III-V H6

I Materials for Carbon Capture Marriott Marquis Yerba Buena Level Salon 1

I1: Porous Covalent Materials I2: Membranes I3 I I4: Metal-organic Frameworks I

I5: Metal-organic Frameworks II

I6: From Computation/Design to Synthesis/Application

I7: Carbon-based Materials I8: Oxides and Zeolites

J Physics of Oxide Thin Films and Heterostructures

Marriott Marquis Yerba Buena Level Salons 2-3

J1: Ferroelectrics I J2: Ferroelectrics and Multiferroicity

J J3: Oxide Device Technology J4: Advances in Oxide Multiferroics

J5 J6: 2DEGs at Complex Oxide Interfaces

J7: Interface Connectivity at Oxide Interfaces

J8 J9: Magnetic Properties of Complex Oxides and Other Phenomena (Moscone West, Level 3, Room 3018)

J10: Advances in Synthesis of Functional Oxides (Moscone West, Level 3, Room 3018)

J11: Metal-Insulator Transitions in Functional Oxides (Moscone West, Level 3, Room 3018)

K Nanostructures, Thin Films and Bulk Oxides— Synthesis, Characterization and Applications

Marriott Marquis Yerba Buena Level Salon 7

K1: ZnO-I Thin Films (Moscone West, Level 2, Room 2016)

K2: ZnO Thin Films (Moscone West, Level 2, Room 2016)

K3: Data Storage/Rewritable Media (Moscone West, Level 2, Room 2016)

K4: Composite Coatings and Interfaces (Moscone West, Level 2, Room 2016)

K5: ZnO Nanostructures I K6: Multiferroics I K7 K K8: Ferroelectric/Multiferroics

K9: Multiferroics II K10 K11: Magnetism and Magnetic Materials I

K12: Magnetism and Magnetic Materials II

K13 K14: Sol Gel and Plasma Assisted Oxide Coatings I (Moscone West, Level 3, Room 3022)

K15: Sol Gel and Plasma Assisted Oxide Coatings II (Moscone West, Level 3, Room 3022)

L Materials and Interfaces in Solid Oxide Fuel Cells


L1: Cathode I L2: Solid Oxide Cells L3: Oxide Materials

L L4: Cathode II L5: Anode L6: Strain Effects L7: Cathode III L8 L9: Electrolytes (Moscone West, Level 3, Room 3000)

TECHNICAL SESSIONSPoster session details for each symposium can be found on page 26 and Tutorial details on page 104.

EN

ER

GY

MA

PS

& S

CH

ED

ULE

S2

01

4S

PR

ING

MEETI

NG

&

EXH

IBIT



A Film-Silicon Science and Technology

Marriott Marquis Golden Gate Level Salon B



A1: Amorphous and Nanocrystalline Films and Devices

A2: Advanced Characterization and Simulation

A3: Photon Management in Thin Film Silicon

A A4: Si Heterojunction Cells, Contact and Interface Passivation

A5: Layer Transfer, Kerfless Si Materials and Devices

A6: Novel Materials and Epitaxial Growth on Si

A7: Silicon Nanostructures and Related Novel Materials (Moscone West, Level 3, Room 3012)

A8: Atomistic Simulation of Si Nanostructures and Thin Film Properties (Moscone West, Level 3, Room 3012)

A9: Silicon Film Based Novel Devices (Moscone West, Level 3, Room 3012)

A10 A11 A12 A13 A14 A15 A16

A17: Laser Processing of Film Silicon (Moscone West, Level 3, Room 3012)

A18: Advances in Contact Passivation and Silcon Layer Fabrication (Moscone West, Level 3, Room 3012)

B Organic and Inorganic Materials for Dye-Sensitized Solar Cells

Westin 2nd Floor Metropolitan I

B1: Organic/Inorganic Materials I B2: Devices and Performance I

B3: Organic/Inorganic Materials II B4: Devices and Performance II

B B5: Organic/Inorganic Materials III

B6: Devices and Performance III

B7: Organic/Inorganic Materials IV

B8: Devices and Performance IV

B9 B10: Organic/Inorganic Materials V

B11: Devices and Performance V

B12: Organic/Inorganic Materials VI

B13: Devices and Performance VI

C Synthesis and Processing of Organic and Polymeric Materials for Semiconductor Applications

Westin 2nd Floor Metropolitan III

C1: Organic Thin Film I (Moscone West, Level 2, Room 2007

C2: Organic Thin Film II: Processing and Modelling (Moscone West, Level 2, Room 2007

C3: Dyes for Photovoltaics I C4: Organic PVs: Physics I

C5: Organic PVs: Physics II C6 C C7: Organic PVs: Interfacial Studies

C8: Organic PVs: Light Management

C9: Dyes for Photovoltaics II C10: OLED Materials and Device

C11: Organic Thin Film III: Morphology, Transport and Characterization

C12 C13: Organic PVs: Thin Film Morphology I (Moscone West, Level 2, Room 2007

C14: Organic PVs: New Processing Method (Moscone West, Level 2, Room 2007)

C15: Organic PVs: Thin Film Morphology II (Moscone West, Level 2, Room 2007)

C16: Dyes for Photovoltaics III (Moscone West, Level 2, Room 2007)

D Materials for Photoelectrochemical and Photocatalytic Solar-Energy Harvesting and Storage

Westin 2nd Floor Metropolitan II

D1: Overview of Solar Hydrogen Production by PEC

D2: Metal Oxides for Solar Fuels - TiO2

D D3: Photocatalytic and Molecular Approach to Solar Fuels

D4: Metal Oxides for Solar Water Splitting - Hematite

D5 D6: Carbon Dioxide Reduction and New Electrocatalysts

D7: Metal Oxides for Solar Fuel Production - Electrocatalysts, TiO2, and Beyond

D8 D9: Materials for Solar Fuels - BiVO4, Nitrides, and Chalcogenides (Moscone West, Level 2, Room 2009)

D10: New Characterizations and Computational Approaches (Moscone West, Level 2, Room 2009)

E Earth-Abundant Inorganic Solar-Energy Conversion

Westin 3rd Floor Franciscan I

E/H: Tutorial (Moscone,

Level 2, Room 2003)

E/H: Tutorial (Moscone, Level 2, Room 2003)

E1: Binary Sulfide PV AbsorbersE2: Iron Sulfide Based PV Absorbers

E3: PV Research Strategies E4: PV Interfaces

E5 E E6: CZTS Defects E7: Copper Sulfide Based

PV Absorbers"

E8: CZTS PV Devices E9: Status of the Earth-

Abundant PV Field

E10 E11: PEC Absorbers

E12/LL10: Joint Session: Transparent Conductors for Solar Energy and Related Applications (Moscone West, Level 3, Room 3009)

E13: Oxide PV Absorbers E14: Pnictide PV Absorbers

E15 E16: CZTS Growth (Moscone West, Level 2, Room 2000)

E17: CZTS Structure (Moscone West, Level 2, Room 2000)

F Controlling the Interaction between Light and Semiconductor Nanostructures for Energy Applications

Marriott Marquis Golden Gate Level Salon C

F1: Carrier Dynamics and Transport F2: Photovoltaics F F3/EE4: Joint Session: Quantum Dot Solar Cells


F4: LEDs and Luminesence F5 F6/UU7: Joint Session: Photo-Energy Conversion


F7/UU8: Joint Session: Photovoltaics


F8: Novel Approaches to Energy (Moscone West, Level 3, Room 3020)

F9 F10: Light Management (Moscone West, Level 3, Room 3020)

G Photoactivated Chemical and Biochemical Processes on Semiconductor Surfaces

Westin 3rd Floor Franciscan II

G1: Organic/Inorganic Hybrids G2: Understanding Charge Transfer

at Interfaces

G3: Tailored Interfaces for Charge Transfer and Stabilization

G4: Metal/Semiconductor Nanocomposites: From Catalysis to Sensing

G G5: Photochemical Reactions on Semiconductor Surfaces

G6: Photoelectrochemcial Properties of GaN and Related Materials

G7: Semiconductor Quantum Dots and Nanoparticles

G8: Carbon-Based Materials for Photocatalysis

G9 G10 G11

G12: Semiconducting Oxides for Photocatalysis

G13: Mesa- and Nanostructured Semiconducting Oxides for Photoelectrochemistry

H Defect Engineering in Thin-Film Photovoltaic Materials

Westin 3rd Floor City



H1: CdTe & CIG H2: Theories H H3: Other Thin Film PV Defect Engineering

H4: Characterization H5: Multijunction/III-V H6

I Materials for Carbon Capture Marriott Marquis Yerba Buena Level Salon 1

I1: Porous Covalent Materials I2: Membranes I3 I I4: Metal-organic Frameworks I

I5: Metal-organic Frameworks II

I6: From Computation/Design to Synthesis/Application

I7: Carbon-based Materials I8: Oxides and Zeolites

J Physics of Oxide Thin Films and Heterostructures


J1: Ferroelectrics I J2: Ferroelectrics and Multiferroicity

J J3: Oxide Device Technology J4: Advances in Oxide Multiferroics

J5 J6: 2DEGs at Complex Oxide Interfaces

J7: Interface Connectivity at Oxide Interfaces

J8 J9: Magnetic Properties of Complex Oxides and Other Phenomena (Moscone West, Level 3, Room 3018)

J10: Advances in Synthesis of Functional Oxides (Moscone West, Level 3, Room 3018)

J11: Metal-Insulator Transitions in Functional Oxides (Moscone West, Level 3, Room 3018)

K Nanostructures, Thin Films and Bulk Oxides— Synthesis, Characterization and Applications


K1: ZnO-I Thin Films (Moscone West, Level 2, Room 2016)

K2: ZnO Thin Films (Moscone West, Level 2, Room 2016)

K3: Data Storage/Rewritable Media (Moscone West, Level 2, Room 2016)

K4: Composite Coatings and Interfaces (Moscone West, Level 2, Room 2016)

K5: ZnO Nanostructures I K6: Multiferroics I K7 K K8: Ferroelectric/Multiferroics

K9: Multiferroics II K10 K11: Magnetism and Magnetic Materials I

K12: Magnetism and Magnetic Materials II

K13 K14: Sol Gel and Plasma Assisted Oxide Coatings I (Moscone West, Level 3, Room 3022)

K15: Sol Gel and Plasma Assisted Oxide Coatings II (Moscone West, Level 3, Room 3022)

L Materials and Interfaces in Solid Oxide Fuel Cells


L1: Cathode I L2: Solid Oxide Cells L3: Oxide Materials

L L4: Cathode II L5: Anode L6: Strain Effects L7: Cathode III L8 L9: Electrolytes (Moscone West, Level 3, Room 3000)

M Fuel Cells, Electrolyzers and Other Electrochemical Energy Systems


M1: Electrodes and Catalysis M M2: Electrocatalysts M3: Flow Batteries PEM Membranes

M4: AEM and PEM Membranes

M5: Li Batteries and High T Electrochemistry

M6 M7: Electrolyzers and CO2 Reduction (Moscone West, Level 3, Room 3009)

M8: Miscellaneous Electrochemical Systems (Moscone West, Level 3, Room 3009)

N Research Frontiers on Electrochemical Energy Storage Materials—Design, Synthesis, Characterization and Modeling

Marriott Marquis Golden Gate Level Salon A

N/O: Tutorial (Moscone, Level 2, Room 2006)

N1/O1: Joint Session: EFRC and JCESR (Moscone West, Level 2, Room 2006)

N2/O2: Joint Session: Li-S and Li-O2 Batteries

N3: Emerging Materials / Discovery

N N4: Imaging N5: Architecture / Assembly N6: High Voltage Materials / Systems (Marriott Marquis, Yerba Buena Level, Nob Hill A/B)

N7: Ionic Conduction (Marriott Marquis, Yerba Buena Level, Nob Hill A/B)

N8 N9: Interfaces and Design of Anode Materials (Moscone West, Level 2, Room 2022)

N10: Non-Faradaic Storage (Moscone West, Level 2, Room 2022)

O Novel Energy-Storage Technologies beyond Li-ion Batteries—From Materials Design to System Integration

Marriott Marquis Yerba Buena Level Nob Hill C/D

O/N: Tutorial (Moscone, Level 2, Room 2006)

O1/N1: Joint Session: EFRC and JCESR (Moscone West, Level 2, Room 2006)

O2/N2: Joint Session: Li-S and Li-O2 Batteries (Marriott Marquis, Golden Gate Level, Salon A)

O3: Intercalation beyond LIBs & Solid Electrolytes

O O4: Cathode beyond Li-ion Batteries

O5: Anode beyond Li-Ion Batteries

O6: Interfacial Reactions beyond LIBs

O7: Nanostructured Materials for beyond LIB systems

O8 O9: Aqueous and Non-Aqueous Electrolytes (Moscone West, Level 3, Room 3)

P Mechanics of Energy Storage and Conversion—Batteries, Thermoelectrics and Fuel Cells


P1: Lithium Ion Batteries - Characterization

P2: Lithium Ion Batteries - Modeling

P3: Energy Harvesting"

P P4: Lithium Ion Batteries - Mechanics

P5: Lithium Ion Batteries - Materials

P6 P7: Solid Oxide Fuel Cells and Others

P8: Thermoelectrics - Mechanics

P9: Thermoelectrics - Theory (Moscone West, Level 3, Room 3005)

P10: Thermoelectric - Nanostructures (Moscone West, Level 3, Room 3005)

Q Materials, Technologies and Sensor Concepts for Advanced Battery Management Systems


Q1: Sensor Concepts for Battery Management Systems

Q2: Advanced Battery Management Systems

Q3: Novel Materials for Battery Management Systems"

Q4 Q

R Materials Challenges and Integration Strategies for Flexible Energy Devices and Systems


R1: Energy Harvesting I R2: Energy Harvesting II R3 R R4: Energy Conversion and Storage I

R5: Energy Conversion and Storage II

R6 R7: Energy Conversion and Storage III

R8: Energy Conversion and Storage IV

R9 R10: Energy Conversion and Storage V (Moscone West, Level 3, Room 3007)

S Actinides—Basic Science, Applications and Technology


S S1: Theory: DFT/DMFT S2: Magnetism and Electron

Correlation

S3: Chemistry, Detector and Radiation Damage

S4: Nuclear Technology and Materials

S5 Withdrawn

S6: Condensed Matter - Plutonium

S7: Bonding and Chemistry

S8: X-Ray Spectroscopy

T Superconductor Materials—From Basic Science to Novel Technology


T1: Wires and Tape I: YBCO Coated Conductors

T2: Thin Films and Flux Pinning I: YBCO Coated Conductors

T3: Applications I: High Field Magnets

T4: New Superconductors I: Overview, Theory

T T5: Tapes and Wires II: LTS, BSCCO, MgB2, MFe2 as 2

T6: Thin Films and Flux Pinning II: Theory, Basic Sciences

T7: Plenary Overviews: MultiDiscipline Approaches

T8: New Superconductors II: Interface Effects and Control

T9 T10: Tapes and Wires III: YBCO Films, Buffer Layers, Material Sciences

T11: Thin Films and Flux Pinning III: Fe-based, MgB2

T12: Applications II: High Power Machines, RF Cavity, SMES

T13: New Superconductors III: FeAS Based Compounds

T14: New Superconductors IV: Fe,Se, Te, Bi, Based Compounds (Moscone West, Level 3, Room 3011)

T15: New Supercondutor V: Advanced Characterization, Materials Sciences (Moscone West, Level 3, Room 3011

T16: New Superconductors VI: New Materials, Mechanisms (Moscone West, Level 3, Room 3011)

U Soft Nanomaterials Moscone West Level 2 Room 2001

U1: Electronics and Energy I U2: Electronics and Energy II U3 U U4: Biomolecules, Biomaterials and Medicine I

U5: Biomolecules, Biomaterials and Medicine II

U6 U7: Polymers and Gels I U8: Polymers and Gels II U9 U10: Structures and Mechanics

V Micro- and Nanofluidic Systems for Materials Synthesis, Device Assembly and Bioanalysis

Moscone West Level 2 Room 2002

V1: Frontiers in Microfluidics I V2: Frontiers in Microfluidics II V3 V V4: Frontiers in Microfluidics III

V5: Single Cell and Rare Cell Analysis

V6: Droplet-based Microfluidic Systems

V7: Nanofluidics and Nanoscale Devices

V8: Materials Synthesis and Assembly

V9 V10: Emerging Technologies in Micro/Nanofluidics

W Functional Biomaterials for Regenerative Engineering


W1: Biomaterials for Tissue Regeneration

W2: Polymeric Biomaterials for Engineering Tissues

W3 W W4: Hydrogel-based Biomaterials

W5: Biomaterials for Regenerative Therapies

W6 W7: Biomaterials and Small Molecule Delivery

W8: Biomaterials and Stem Cells

W9: Stimuli Responsive Polymers and Metallic Biomaterials

X Frontiers of Materials Research Marriott Marquis Yerba Buena Level Salon 7

X1 X X2 X3

Y Biomaterials for Biomolecule Delivery and Understanding Cell-Niche Interactions


Y1: Biomaterials for Tissue Regeneration

Y2: Modulating Stem Cell-Niche Interactions

Y3: Engineering Cancer NicheY4: Biomaterials for Modulating

Immune Responses

Y5 Y Y6: Biomaterials for Drug Delivery I

Y7: Biomaterials for Drug Delivery II

Y8 Y9: Biomaterials for Gene Delivery

Y10: Novel Biomaterials and Technologies I

Y11: Novel Biomaterials and Technologies II

Y12

Z Bioelectronics—Materials, Processes and Applications


Z1/AA1: Joint Session: Organic Bioelectronics

Z2/AA2: Joint Session: Bioelectronics: Neural Applications

Z3/AA3 Z Z4: Bioelectronics: Nano and Natural / Biocompatible Electronics I

Z5: Bioelectronics: Nano and Natural / Biocompatible Electronics II

Z6: Bioelectronics: Optical Applications /Transducers

Z7 Z8: Bioelectronics: Optical Applications/Transducers

Z9: Bioelectronics: Biosensing Devices I

Z10: Bioelectronics: Biosensing Devices II

Z11 Bioelectronics: Materials and Device Development

Z12: Bioelectronics: Wearable/Flexible Devices

AA Advanced Multifunctional Biomaterials for Neuroprosthetic Interfaces


AA1/Z1: Joint Session: Organic Bioelectronics (Moscone West, Level 2, Room 2005)

AA2/Z2: Joint Session: Bioelectronics: Neural Applications (Moscone West, Level 2, Room 2005)

AA3/Z3 AA AA4: Neuroprosthetic Interfaces I

AA5: Neuroprosthetic Interfaces II

AA6: Neuroprosthetic Interfaces III

AA7: Neuroprosthetic Interfaces IV

BB Materials for End-of-Roadmap Devices in Logic, Power and Memory


BB: Tutorial (Moscone, Level 2, Room 2001)

BB1: III-V Semiconductors I BB2: Ge Based Channels

BB3: Resistive RAM I BB BB4: Nitride Semiconductors BB5: III-V and Ge

Semiconductors II

BB6: III-V Semiconductors III BB7: Advanced Devices

BB8: Ge and High K Oxides BB9: Nitrides and Related

Semiconductor Devices

BB10: Resistive RAM II BB11 BB12: Materials Characterization

BB13: MOS2 and Memory Devices

CC New Materials and Processes for Interconnects, Novel Memory and Advanced Display Technologies


HH: Tutorial (Moscone, Level 2, Room 2004)

CC1: Low-K / Plasma Damage CC2: Low-K / Metallization

CC3: Low-K / Materials and Porosity

CC4: Low-K / Electrical Properties and Characterization

CC CC5: Packaging CC6: Low Temperature

Processes

CC7: Low Temperature Materials

CC8: Advanced Interconnects and Nanostructures

CC9 CC10: Memory CC11: Flexible CC12: Displays

Poster session details for each symposium can be found on page 26 and Tutorial details on page 104.

TECHNICAL SESSIONS



EN

ER

GY

SO

FT

& B

IOM

AT

ER

IAL

SE

LE

CT

RO

NIC

S

& P

HO

TO

NIC

S

SO

FT

& B

IOM

AT

ER

IAL

SX

MA

PS

& S

CH

ED

ULE

S2

01

4S

PR

ING

MEETI

NG

&

EXH

IBIT

M Fuel Cells, Electrolyzers and Other Electrochemical Energy Systems


M1: Electrodes and Catalysis M M2: Electrocatalysts M3: Flow Batteries PEM Membranes

M4: AEM and PEM Membranes

M5: Li Batteries and High T Electrochemistry

M6 M7: Electrolyzers and CO2 Reduction (Moscone West, Level 3, Room 3009)

M8: Miscellaneous Electrochemical Systems (Moscone West, Level 3, Room 3009)

N Research Frontiers on Electrochemical Energy Storage Materials—Design, Synthesis, Characterization and Modeling

Marriott Marquis Golden Gate Level Salon A

N/O: Tutorial (Moscone, Level 2, Room 2006)

N1/O1: Joint Session: EFRC and JCESR (Moscone West, Level 2, Room 2006)

N2/O2: Joint Session: Li-S and Li-O2 Batteries

N3: Emerging Materials / Discovery

N N4: Imaging N5: Architecture / Assembly N6: High Voltage Materials / Systems (Marriott Marquis, Yerba Buena Level, Nob Hill A/B)

N7: Ionic Conduction (Marriott Marquis, Yerba Buena Level, Nob Hill A/B)

N8 N9: Interfaces and Design of Anode Materials (Moscone West, Level 2, Room 2022)

N10: Non-Faradaic Storage (Moscone West, Level 2, Room 2022)

O Novel Energy-Storage Technologies beyond Li-ion Batteries—From Materials Design to System Integration

Marriott Marquis Yerba Buena Level Nob Hill C/D

O/N: Tutorial (Moscone, Level 2, Room 2006)

O1/N1: Joint Session: EFRC and JCESR (Moscone West, Level 2, Room 2006)

O2/N2: Joint Session: Li-S and Li-O2 Batteries (Marriott Marquis, Golden Gate Level, Salon A)

O3: Intercalation beyond LIBs & Solid Electrolytes

O O4: Cathode beyond Li-ion Batteries

O5: Anode beyond Li-Ion Batteries

O6: Interfacial Reactions beyond LIBs

O7: Nanostructured Materials for beyond LIB systems

O8 O9: Aqueous and Non-Aqueous Electrolytes (Moscone West, Level 3, Room 3)

P Mechanics of Energy Storage and Conversion—Batteries, Thermoelectrics and Fuel Cells


P1: Lithium Ion Batteries - Characterization

P2: Lithium Ion Batteries - Modeling

P3: Energy Harvesting"

P P4: Lithium Ion Batteries - Mechanics

P5: Lithium Ion Batteries - Materials

P6 P7: Solid Oxide Fuel Cells and Others

P8: Thermoelectrics - Mechanics

P9: Thermoelectrics - Theory (Moscone West, Level 3, Room 3005)

P10: Thermoelectric - Nanostructures (Moscone West, Level 3, Room 3005)

Q Materials, Technologies and Sensor Concepts for Advanced Battery Management Systems


Q1: Sensor Concepts for Battery Management Systems

Q2: Advanced Battery Management Systems

Q3: Novel Materials for Battery Management Systems"

Q4 Q

R Materials Challenges and Integration Strategies for Flexible Energy Devices and Systems


R1: Energy Harvesting I R2: Energy Harvesting II R3 R R4: Energy Conversion and Storage I

R5: Energy Conversion and Storage II

R6 R7: Energy Conversion and Storage III

R8: Energy Conversion and Storage IV

R9 R10: Energy Conversion and Storage V (Moscone West, Level 3, Room 3007)

S Actinides—Basic Science, Applications and Technology


S S1: Theory: DFT/DMFT S2: Magnetism and Electron

Correlation

S3: Chemistry, Detector and Radiation Damage

S4: Nuclear Technology and Materials

S5 Withdrawn

S6: Condensed Matter - Plutonium

S7: Bonding and Chemistry

S8: X-Ray Spectroscopy

T Superconductor Materials—From Basic Science to Novel Technology


T1: Wires and Tape I: YBCO Coated Conductors

T2: Thin Films and Flux Pinning I: YBCO Coated Conductors

T3: Applications I: High Field Magnets

T4: New Superconductors I: Overview, Theory

T T5: Tapes and Wires II: LTS, BSCCO, MgB2, MFe2 as 2

T6: Thin Films and Flux Pinning II: Theory, Basic Sciences

T7: Plenary Overviews: MultiDiscipline Approaches

T8: New Superconductors II: Interface Effects and Control

T9 T10: Tapes and Wires III: YBCO Films, Buffer Layers, Material Sciences

T11: Thin Films and Flux Pinning III: Fe-based, MgB2

T12: Applications II: High Power Machines, RF Cavity, SMES

T13: New Superconductors III: FeAS Based Compounds

T14: New Superconductors IV: Fe,Se, Te, Bi, Based Compounds (Moscone West, Level 3, Room 3011)

T15: New Supercondutor V: Advanced Characterization, Materials Sciences (Moscone West, Level 3, Room 3011

T16: New Superconductors VI: New Materials, Mechanisms (Moscone West, Level 3, Room 3011)

U Soft Nanomaterials Moscone West Level 2 Room 2001

U1: Electronics and Energy I U2: Electronics and Energy II U3 U U4: Biomolecules, Biomaterials and Medicine I

U5: Biomolecules, Biomaterials and Medicine II

U6 U7: Polymers and Gels I U8: Polymers and Gels II U9 U10: Structures and Mechanics

V Micro- and Nanofluidic Systems for Materials Synthesis, Device Assembly and Bioanalysis


V1: Frontiers in Microfluidics I V2: Frontiers in Microfluidics II V3 V V4: Frontiers in Microfluidics III

V5: Single Cell and Rare Cell Analysis

V6: Droplet-based Microfluidic Systems

V7: Nanofluidics and Nanoscale Devices

V8: Materials Synthesis and Assembly

V9 V10: Emerging Technologies in Micro/Nanofluidics

W Functional Biomaterials for Regenerative Engineering


W1: Biomaterials for Tissue Regeneration

W2: Polymeric Biomaterials for Engineering Tissues

W3 W W4: Hydrogel-based Biomaterials

W5: Biomaterials for Regenerative Therapies

W6 W7: Biomaterials and Small Molecule Delivery

W8: Biomaterials and Stem Cells

W9: Stimuli Responsive Polymers and Metallic Biomaterials

X Frontiers of Materials Research Marriott Marquis Yerba Buena Level Salon 7

X1 X X2 X3

Y Biomaterials for Biomolecule Delivery and Understanding Cell-Niche Interactions


Y1: Biomaterials for Tissue Regeneration

Y2: Modulating Stem Cell-Niche Interactions

Y3: Engineering Cancer NicheY4: Biomaterials for Modulating

Immune Responses

Y5 Y Y6: Biomaterials for Drug Delivery I

Y7: Biomaterials for Drug Delivery II

Y8 Y9: Biomaterials for Gene Delivery

Y10: Novel Biomaterials and Technologies I

Y11: Novel Biomaterials and Technologies II

Y12

Z Bioelectronics—Materials, Processes and Applications


Z1/AA1: Joint Session: Organic Bioelectronics

Z2/AA2: Joint Session: Bioelectronics: Neural Applications

Z3/AA3 Z Z4: Bioelectronics: Nano and Natural / Biocompatible Electronics I

Z5: Bioelectronics: Nano and Natural / Biocompatible Electronics II

Z6: Bioelectronics: Optical Applications /Transducers

Z7 Z8: Bioelectronics: Optical Applications/Transducers

Z9: Bioelectronics: Biosensing Devices I

Z10: Bioelectronics: Biosensing Devices II

Z11 Bioelectronics: Materials and Device Development

Z12: Bioelectronics: Wearable/Flexible Devices

AA Advanced Multifunctional Biomaterials for Neuroprosthetic Interfaces


AA1/Z1: Joint Session: Organic Bioelectronics (Moscone West, Level 2, Room 2005)

AA2/Z2: Joint Session: Bioelectronics: Neural Applications (Moscone West, Level 2, Room 2005)

AA3/Z3 AA AA4: Neuroprosthetic Interfaces I

AA5: Neuroprosthetic Interfaces II

AA6: Neuroprosthetic Interfaces III

AA7: Neuroprosthetic Interfaces IV

BB Materials for End-of-Roadmap Devices in Logic, Power and Memory


BB: Tutorial (Moscone, Level 2, Room 2001)

BB1: III-V Semiconductors I BB2: Ge Based Channels

BB3: Resistive RAM I BB BB4: Nitride Semiconductors BB5: III-V and Ge

Semiconductors II

BB6: III-V Semiconductors III BB7: Advanced Devices

BB8: Ge and High K Oxides BB9: Nitrides and Related

Semiconductor Devices

BB10: Resistive RAM II BB11 BB12: Materials Characterization

BB13: MOS2 and Memory Devices

CC New Materials and Processes for Interconnects, Novel Memory and Advanced Display Technologies



CC1: Low-K / Plasma Damage CC2: Low-K / Metallization

CC3: Low-K / Materials and Porosity

CC4: Low-K / Electrical Properties and Characterization

CC CC5: Packaging CC6: Low Temperature

Processes

CC7: Low Temperature Materials

CC8: Advanced Interconnects and Nanostructures

CC9 CC10: Memory CC11: Flexible CC12: Displays



DD Silicon Carbide—Materials, Processing and Devices


DD1: SiC Growth DD2: MOS Interfaces and Defects DD DD3: SiC Devices and Circuits

DD4: SiC Processing DD5: Bio/MEMS

DD6 DD7: Graphene DD8: Novel Applications

EE Advances in Inorganic Semiconductor Nanoparticles and Their Applications


EE1: Nanoparticle Synthesis EE2: Functionalized Nanoparticles

EE3: Heterostructure Nanoparticles

EE EE4/F3: Joint Session: Quantum Dot Solar Cells

EE5: Doping Nanoparticles EE6: Defects and Passivation EE7: Novel Materials

and Processing

EE8: Photophysical Properties

EE9: Physical Properties

EE10 EE11: Semiconducting Nanoparticle Solids

EE12: Charge/Energy Transfer and Diffusion

EE13: Devices

FF The Grand Challenges in Organic Electronics


FF1: Organic Photovoltaics

FF2: Organic Transistors FF3: Design and Synthesis of Organic Semiconductors I

FF4 FF FF5: Design and Synthesis of Organic Semiconductors II

FF6: Microstructure and Crystalinity

FF7: Morphology and Processing

FF8: Charge Transport/Device Physics I

FF9 FF10: Charge Transport/Device Physics II

FF11: Theoretical Description in Organic Materials

GG Few-Dopant Semiconductor Optoelectronics


GG1: Controlling Individual Dopants in Silicon

GG2: Few-Dopant Optoelectronics and Quantum Networks in Wide-Bandgap Semiconductor

GG3: Control of Individual Dopants by Structure and Composition of Their Environment

GG4: Nanoscale Sensing Using Individual Dopants

GG5 GG

HH Phase-Change Materials for Memory, Reconfigurable Electronics and Cognitive Applications


HH: Tutorial (Moscone,

Level 2, Room 2004)


HH1: Crystallization Kinetics HH2: Structural Dynamics HH HH3: Phase-Change Memory

HH4: GaSb HH5: Resistance Drift

HH6 HH7: Structure and Bonding HH8: Electronic Properties of

the Crystalline Phase I

HH9: Electronic Properties of the Crystalline Phase IIHH10: Neuromorphic Hardware/Reconfigurable

Electronics

II Emerging Nanophotonic Materials and Devices


II1: Self-Assembly and Nanoparticles II2: Nanofabrication II3: Advanced Characterization

II4 II II5/KK4: Joint Session: Optics of Graphene and

2D Materials

II6: Plasmonic Antennas and Absorbers

II7: Quantum Phenomena

II8 II9: Applications: Sensing and Imaging

II10: Applications: Solar Cells and Data Storage

II11: Emerging Topics in Nanophotonics

II12: Enhanced Light-Matter Interactions

JJ Materials and Processes for Nonlinear Optics


JJ1: Second-Order NLO Materials and Crystals

JJ2: NLO Crystals and Nanomaterials

JJ3 JJ JJ4: Organic/Organometallic NLO Materials I

JJ5: Organic / Organometallic NLO Materials II

JJ6: NLO Materials for Biological Applications

JJ7: NLO Characterization Techniques and Spectroscopy

JJ8: NLO Calculation/Simulation

KK Resonant Optics—Fundamentals and Applications


KK1: Emerging Plasmonic Materials and Devices

KK2: Nonreciprocal and Other Exotic Metamaterials

KK3 KK KK4/II5: Joint Session: Optics of Graphene

and 2D Materials

KK5: Resonant Optics for Energy and Imaging

KK6: Dielectric Optic Resonances

KK7: Dielectric/Plasmonic Metasurfaces

KK8: Resonant Optics for Light Emission and Sensing

LL Transparent Electrodes Moscone West Level 3 Room 3009

LL1: Metal Nanowire Networks - Processing

LL2: Graphene Based Transparent Electrodes

LL3: Metal Nanowire Networks - Preparation

LL4: Thin Dielectric-Metal-Dielectric Films

LL5 LL LL6: Solution Processed TCOs

LL7: Metal Grids and Related Structures

LL8: Novel Material Approaches for Transparent Electrodes

LL9: Transparent Conductive Oxides and Related Compounds

LL10/E12: Joint Session: Transparent Conductors

for Solar Energy and Related Applications

LL11: Percolation in Metal Nanowire Networks

LL12: Hybrid Transparent Electrodes

MM Nanotubes and Related Nanostructures


MM1: Controlled Synthesis MM2: Advanced Characterization MM3: Theoretical Investigation

MM4 MM MM5: Non-Carbon Nanostructures

MM6: Mechanical Properties

MM7: Optical Properties MM8 MM9: Electrical Properties and Devices

MM10: Chemical and Biological Investigation I

MM11 MM12: Chemical and Biological Investigation II

NN 2D Materials and Devices beyond Graphene


NN1: 2D Materials beyond Graphene: Synthesis I

NN2: 2D Materials beyond Graphene: Synthesis II

NN3 NN NN4: 2D Materials beyond Graphene: Device I

NN5: 2D Materials beyond Graphene: Fundamental Properties I

NN6 NN7: 2D Materials beyond Graphene: Fundamental Properties II

OO De Novo Graphene Moscone West Level 2 Room 2008

OO1: Mechanical

Properties

OO2: Heterostructures

and DevicesOO3: Growth I

OO4: Heterostructures and Growth OO5: Growth II

OO6: Devices and Electronic Transport

OO7: Energy Storage and Conversion

OO8 OO OO9: Growth and Properties OO10: Thermal Properties and Transport

OO11: Optical and Electronic Properties

OO12 OO13: Devices OO14: Growth and Doping

OO15: Morphology and Optical Properties

OO16: Optical and Electronic Devices

OO17 OO18: Growth and Processing

OO19: One Dimensional Structures

OO20: Electronic and Optical Properties

PP Nanodiamonds— Fundamentals and Applications


PP1: Synthesis PP2: Medical Applications I PP3 PP PP4: Medical Applications II PP5: Modelling PP6 PP7: Characterization PP8: De Novo Exploitation

QQ Computationally Enabled Discoveries in Synthesis, Structure and Properties of Nanoscale Materials


QQ1: Understanding and Designing Mechanical Properties of Materials

QQ2: Fabrication and Growth Mechanisms of Nanoscale Materials

QQ3 QQ QQ4: Nanostructured Energy Materials

QQ5: TEM Characterization and Atomic-Level Modeling of Deformation Mechanisms

QQ6 QQ7: Modeling Complex Materials

QQ8: Modeling Interface-Mediated Plasticity

QQ9: Thermal and Electronic Properties of Nanoscale Materials

RR Solution Synthesis of Inorganic Functional Materials


RR: Tutorial (Moscone, Level 2, Room 2011)

RR1: Solution Synthesis of Dielectric/Ferroelectric Oxides and Related Materials

RR2: Solution Synthesis of Nanostructured Materials I

RR3 RR RR4: Solution Synthesis of Nanostructured Materials II

RR5: Applications of Solution Synthesized Materials I

RR6 RR7: Novel Solution Approaches

RR8: Applications of Solution Synthesized Materials II

RR9 RR10: Applications of Solution Synthesized Materials III

SS Nanocrystal Growth via Oriented Attachment and Mesocrystal Formation


SS: Tutorial (Moscone, Level 2, Room 2009)

SS1: Oriented Attachment and Mesocrystals I

SS2: Oriented Attachment and Mesocrystals II

SS SS3: Oriented Attachment and Mesocrystals III

SS4/AAA5: Joint Session: In-situ Synchrotron Studies

of Nanoparticles Growth via Oriented Attachment and Mesocrystals Formation

SS5: Oriented Attachment and Mesocrystals IV

SS6 SS7: Oriented Attachment and Mesocrystals VI

TT Mesoscale Self-Assembly of Nanoparticles— Manufacturing, Functionalization, Assembly and Integration


TT1: Nanoparticle Self-Assembly and Applications

TT2: Nanoparticle Self-Assembly and Characterizations

TT3 TT TT4: Nanoparticle Applications

TT5: Nanoparticle Mesoscale Self-Assembly

TT6 TT7: Nanoparticle Self-Assembly and Applications

TT8: Nanoparticle Manufacturing and Mesoscale Self-Assembly


TECHNICAL SESSIONS



EL

EC

TR

ON

ICS

& P

HO

TO

NIC

S

NA

NO

MA

TE

RIA

LS

MA

PS

& S

CH

ED

ULE

S2

01

4S

PR

ING

MEETI

NG

&

EXH

IBIT

DD Silicon Carbide—Materials, Processing and Devices


DD1: SiC Growth DD2: MOS Interfaces and Defects DD DD3: SiC Devices and Circuits

DD4: SiC Processing DD5: Bio/MEMS

DD6 DD7: Graphene DD8: Novel Applications

EE Advances in Inorganic Semiconductor Nanoparticles and Their Applications


EE1: Nanoparticle Synthesis EE2: Functionalized Nanoparticles

EE3: Heterostructure Nanoparticles

EE EE4/F3: Joint Session: Quantum Dot Solar Cells

EE5: Doping Nanoparticles EE6: Defects and Passivation EE7: Novel Materials

and Processing

EE8: Photophysical Properties

EE9: Physical Properties

EE10 EE11: Semiconducting Nanoparticle Solids

EE12: Charge/Energy Transfer and Diffusion

EE13: Devices

FF The Grand Challenges in Organic Electronics


FF1: Organic Photovoltaics

FF2: Organic Transistors FF3: Design and Synthesis of Organic Semiconductors I

FF4 FF FF5: Design and Synthesis of Organic Semiconductors II

FF6: Microstructure and Crystalinity

FF7: Morphology and Processing

FF8: Charge Transport/Device Physics I

FF9 FF10: Charge Transport/Device Physics II

FF11: Theoretical Description in Organic Materials

GG Few-Dopant Semiconductor Optoelectronics


GG1: Controlling Individual Dopants in Silicon

GG2: Few-Dopant Optoelectronics and Quantum Networks in Wide-Bandgap Semiconductor

GG3: Control of Individual Dopants by Structure and Composition of Their Environment

GG4: Nanoscale Sensing Using Individual Dopants

GG5 GG

HH Phase-Change Materials for Memory, Reconfigurable Electronics and Cognitive Applications


HH: Tutorial (Moscone,

Level 2, Room 2004)


HH1: Crystallization Kinetics HH2: Structural Dynamics HH HH3: Phase-Change Memory

HH4: GaSb HH5: Resistance Drift

HH6 HH7: Structure and Bonding HH8: Electronic Properties of

the Crystalline Phase I

HH9: Electronic Properties of the Crystalline Phase IIHH10: Neuromorphic Hardware/Reconfigurable

Electronics

II Emerging Nanophotonic Materials and Devices


II1: Self-Assembly and Nanoparticles II2: Nanofabrication II3: Advanced Characterization

II4 II II5/KK4: Joint Session: Optics of Graphene and

2D Materials

II6: Plasmonic Antennas and Absorbers

II7: Quantum Phenomena

II8 II9: Applications: Sensing and Imaging

II10: Applications: Solar Cells and Data Storage

II11: Emerging Topics in Nanophotonics

II12: Enhanced Light-Matter Interactions

JJ Materials and Processes for Nonlinear Optics


JJ1: Second-Order NLO Materials and Crystals

JJ2: NLO Crystals and Nanomaterials

JJ3 JJ JJ4: Organic/Organometallic NLO Materials I

JJ5: Organic / Organometallic NLO Materials II

JJ6: NLO Materials for Biological Applications

JJ7: NLO Characterization Techniques and Spectroscopy

JJ8: NLO Calculation/Simulation

KK Resonant Optics—Fundamentals and Applications


KK1: Emerging Plasmonic Materials and Devices

KK2: Nonreciprocal and Other Exotic Metamaterials

KK3 KK KK4/II5: Joint Session: Optics of Graphene

and 2D Materials

KK5: Resonant Optics for Energy and Imaging

KK6: Dielectric Optic Resonances

KK7: Dielectric/Plasmonic Metasurfaces

KK8: Resonant Optics for Light Emission and Sensing

LL Transparent Electrodes Moscone West Level 3 Room 3009

LL1: Metal Nanowire Networks - Processing

LL2: Graphene Based Transparent Electrodes

LL3: Metal Nanowire Networks - Preparation

LL4: Thin Dielectric-Metal-Dielectric Films

LL5 LL LL6: Solution Processed TCOs

LL7: Metal Grids and Related Structures

LL8: Novel Material Approaches for Transparent Electrodes

LL9: Transparent Conductive Oxides and Related Compounds

LL10/E12: Joint Session: Transparent Conductors

for Solar Energy and Related Applications

LL11: Percolation in Metal Nanowire Networks

LL12: Hybrid Transparent Electrodes

MM Nanotubes and Related Nanostructures


MM1: Controlled Synthesis MM2: Advanced Characterization MM3: Theoretical Investigation

MM4 MM MM5: Non-Carbon Nanostructures

MM6: Mechanical Properties

MM7: Optical Properties MM8 MM9: Electrical Properties and Devices

MM10: Chemical and Biological Investigation I

MM11 MM12: Chemical and Biological Investigation II

NN 2D Materials and Devices beyond Graphene


NN1: 2D Materials beyond Graphene: Synthesis I

NN2: 2D Materials beyond Graphene: Synthesis II

NN3 NN NN4: 2D Materials beyond Graphene: Device I

NN5: 2D Materials beyond Graphene: Fundamental Properties I

NN6 NN7: 2D Materials beyond Graphene: Fundamental Properties II

OO De Novo Graphene Moscone West Level 2 Room 2008

OO1: Mechanical

Properties

OO2: Heterostructures

and DevicesOO3: Growth I

OO4: Heterostructures and Growth OO5: Growth II

OO6: Devices and Electronic Transport

OO7: Energy Storage and Conversion

OO8 OO OO9: Growth and Properties OO10: Thermal Properties and Transport

OO11: Optical and Electronic Properties

OO12 OO13: Devices OO14: Growth and Doping

OO15: Morphology and Optical Properties

OO16: Optical and Electronic Devices

OO17 OO18: Growth and Processing

OO19: One Dimensional Structures

OO20: Electronic and Optical Properties

PP Nanodiamonds— Fundamentals and Applications


PP1: Synthesis PP2: Medical Applications I PP3 PP PP4: Medical Applications II PP5: Modelling PP6 PP7: Characterization PP8: De Novo Exploitation

QQ Computationally Enabled Discoveries in Synthesis, Structure and Properties of Nanoscale Materials


QQ1: Understanding and Designing Mechanical Properties of Materials

QQ2: Fabrication and Growth Mechanisms of Nanoscale Materials

QQ3 QQ QQ4: Nanostructured Energy Materials

QQ5: TEM Characterization and Atomic-Level Modeling of Deformation Mechanisms

QQ6 QQ7: Modeling Complex Materials

QQ8: Modeling Interface-Mediated Plasticity

QQ9: Thermal and Electronic Properties of Nanoscale Materials

RR Solution Synthesis of Inorganic Functional Materials


RR: Tutorial (Moscone, Level 2, Room 2011)

RR1: Solution Synthesis of Dielectric/Ferroelectric Oxides and Related Materials

RR2: Solution Synthesis of Nanostructured Materials I

RR3 RR RR4: Solution Synthesis of Nanostructured Materials II

RR5: Applications of Solution Synthesized Materials I

RR6 RR7: Novel Solution Approaches

RR8: Applications of Solution Synthesized Materials II

RR9 RR10: Applications of Solution Synthesized Materials III

SS Nanocrystal Growth via Oriented Attachment and Mesocrystal Formation


SS: Tutorial (Moscone, Level 2, Room 2009)

SS1: Oriented Attachment and Mesocrystals I

SS2: Oriented Attachment and Mesocrystals II

SS SS3: Oriented Attachment and Mesocrystals III

SS4/AAA5: Joint Session: In-situ Synchrotron Studies


SS5: Oriented Attachment and Mesocrystals IV

SS6 SS7: Oriented Attachment and Mesocrystals VI

TT Mesoscale Self-Assembly of Nanoparticles— Manufacturing, Functionalization, Assembly and Integration


TT1: Nanoparticle Self-Assembly and Applications

TT2: Nanoparticle Self-Assembly and Characterizations

TT3 TT TT4: Nanoparticle Applications

TT5: Nanoparticle Mesoscale Self-Assembly

TT6 TT7: Nanoparticle Self-Assembly and Applications

TT8: Nanoparticle Manufacturing and Mesoscale Self-Assembly



UU Semiconductor Nanowires—Synthesis, Properties and Applications


UU1: Growth I UU2: Characterization I UU3 UU UU4: Growth II UU5: Characterization II UU6 UU7/F6: Joint Session: Photo-Energy ConversionUU8/F7: Joint Session: Photovoltaics

UU9: Devices and Applications

UU10: Devices

UU11: Characterization III UU12: Characterization IV UU13: Devices

VV Magnetic Nanomaterials and Nanostructures


VV1: Biomedical Applications of Nanoparticles

VV2: Magnetic Nanoparticles I VV3: Nanomaterial and Nanostructure Characterization

VV4 VV VV5: Magnetoelectrics VV6: Magnetic Nanoparticles II

VV7: Novel Materials and Processes for Energy Applications

VV8: Thin Films and Devices

VV9 VV10: Spin Caloritronics and Magnetocalorics

VV11: Nanostructured Materials and Photonic Devices

WW Materials by Design— Merging Advanced In-Situ Characterization with Predictive Simulation


WW: Tutorial (Moscone

West, Level 2, Room 2000)

WW: Tutorial (Moscone West,

Level 2, Room 2000)

WW1: Materials by Design: Predictive Modelling I

WW2: Materials by Design: Predictive Modelling II

WW3 WW WW4: Materials by Design: High Throughput I

WW5: Materials by Design: High Throughput II

WW6: Materials by Design: Advanced In-situ Characterization I

WW7: Materials by Design: Advanced in situ Characterization II

WW8/AAA10: Joint Session: Materials

by Design: Merging Advanced in-situ Synchrotron Characterization with Predictive Simulation (Moscone West, Level 3, Room 3024)"

WW9: Materials Microstructure by Design

WW10: Energy Materials by Design

XX Shape Programmable Materials Moscone West Level 3 Room 3022

XX1: Shape Programmable Materials - Memory Effects

XX2: Origami Design for Integration of Self-Assembling Systems for Engineering Innovation (ODISSEI) - FY12 Grantees Session I

XX3: Origami Design for Integration of Self-Assembling Systems for Engineering Innovation (ODISSEI) - FY12 Grantees Session II

XX4: Applications of ODISSEI

XX XX5: Responsive and Reconfigurable Shapes and Surfaces in Active Materials

XX6: Advances in Shape Programmable Materials Chemistry

XX7: Patterning and Assembly Techniques for Shape Programming

XX8 XX9: Adaptive Origami Implementations and Design Tools

XX10: Bioinspired Materials, Designs, and Instabilities

YY Meeting the Challenges of Understanding and Visualizing Mesoscale Phenomena


YY: Tutorial (Moscone, Level 2,

Room 2005)

YY1: Strategies for Assembly of Mesoscale Materials

YY2: Computing Challenges and Strategies

YY3 YY YY4: Multimodal Techniques and Correlated Data Acquisition I

YY5: Multimodal Techniques and Correlated Data Acquisition II

ZZ Advanced Characterization Techniques for Ion-Beam-Induced Effects in Materials


ZZ1: Advanced Characterization Techniques and Methods I

ZZ2: Ion Beam Modification of Thin Films, Surfaces and Nanostructures I

ZZ3/EEE2: Joint Session: Ion Damage in Nuclear

Environments (Moscone West, Level 2, Room 2016)

ZZ4 ZZ ZZ5: Ion Beam Modification of Thin Films, Surfaces and Nanostructures II

ZZ6: X-Ray Techniques

ZZ7: Advanced Characterization Techniques and Methods II

ZZ8: In-situ Measurements I

ZZ9: Advanced Characterization Techniques and Methods III

ZZ10: Ion Beam Modification of Thin Films, Surfaces and Nanostructures III

ZZ11: Advanced Computational Methods

ZZ12: In-situ Measurements II

AAA Applications of In-Situ Synchrotron Radiation Techniques in Nanomaterials Research


AAA: Tutorial (Moscone,

Level 2, Room 2010)

AAA: Tutorial (Moscone, Level 2,

Room 2010)

AAA1: Synthesis, Growth and Phase Transformation I

AAA2: Synthesis, Growth and Phase Transformation II

AAA3 AAA AAA4: Nanomaterials for Energy Applications

AAA5/SS4: Joint Session: In-situ Synchrotron Studies


AAA6: Biological and Bio-Inspired Materials

AAA7: Synthesis, Growth and Phase Transformation III

AAA8: In-situ Studies at Working Conditions - Catalysis I

AAA9: In-situ Studies at Working Conditions - Catalysis II

AAA10/WW8: Joint Session: Materials

by Design: Merging Advanced in-situ Synchrotron Characterization with Predictive Simulation

AAA11: In-situ Studies at Operating Conditions - Mechanical Properties

BBB Advances in Scanning Probe Microscopy for Material Properties


BBB1: Local Probing of Materials Properties I

BBB2: Local Probing of Materials Properties II

BBB3 BBB BBB4: Novel Developments of SPM Probes: Functional and Shielded Probes, Cantilever Interactions and Designs

BBB5: Data Analysis, Theory and Modeling

BBB6: Novel Developments of SPM Techniques: Multifrequency Approaches, Multidimensional Data Acquisition and Visualization, etc.

BBB7: Novel SPM Techniques Combined with Raman Spectroscopy, Electron Spectroscopy, etc.

BBB8: SPM Manipulation and Studies in Devices and Nanostructures

BBB9: SPM Studies of Biological Systems

CCC In-situ Characterization of Material Synthesis and Properties at the Nanoscale with TEM


CCC1: Nanoscale Mechanical Behavior Studied with TEM

CCC2: In-situ TEM of Phase Transformations

CCC3 CCC CCC4: Environmental Transmission Electron Microscopy

CCC5: TEM of Materials in a Liquid Environment

CCC6: Nanoscale Electrochemistry with TEM

DDD Atomic-Resolution Analytical Electron Microscopy of Disruptive and Energy-Related Materials


DDD1 DDD2 DDD3 DDD DDD4 DDD5

EEE Materials Behavior under Extreme Irradiation, Stress or Temperature


EEE1: Radiation Damage in Structural Alloys

EEE2/ZZ3: Joint Session: Ion Damage in Nuclear

Environments

EEE3 EEE EEE4: Radiation Damage in Oxides

EEE5: Fast Processes under Extreme Conditions

EEE6 EEE7: Microstructural Changes under Extremes

EEE8: Probing Small Scale Plasticity

EEE9: Modeling and Experimental Verification of Extreme Material Behavior

FFF Educating and Mentoring Young Materials Scientists for Career Development


FFF: Tutorial (Moscone, Level 2,

Room 2012)

FFF1: Mentoring Excellence in the Academic Milleu

FFF2: Raising a New Generation of Materials Scientists

FFF FFF3: Exploring Innovative Educational Paths in MS&E


TECHNICAL SESSIONS



GE

NE

RA

L—

TH

EO

RY

& C

HA

RA

CT

ER

IZA

TIO

N

SP

EC

IAL

S

YM

PO

SIU

MN

AN

OM

AT

ER

IALS

MA

PS

& S

CH

ED

ULE

S2

01

4S

PR

ING

MEETI

NG

&

EXH

IBIT

UU Semiconductor Nanowires—Synthesis, Properties and Applications


UU1: Growth I UU2: Characterization I UU3 UU UU4: Growth II UU5: Characterization II UU6 UU7/F6: Joint Session: Photo-Energy ConversionUU8/F7: Joint Session: Photovoltaics

UU9: Devices and Applications

UU10: Devices

UU11: Characterization III UU12: Characterization IV UU13: Devices

VV Magnetic Nanomaterials and Nanostructures


VV1: Biomedical Applications of Nanoparticles

VV2: Magnetic Nanoparticles I VV3: Nanomaterial and Nanostructure Characterization

VV4 VV VV5: Magnetoelectrics VV6: Magnetic Nanoparticles II

VV7: Novel Materials and Processes for Energy Applications

VV8: Thin Films and Devices

VV9 VV10: Spin Caloritronics and Magnetocalorics

VV11: Nanostructured Materials and Photonic Devices

WW Materials by Design— Merging Advanced In-Situ Characterization with Predictive Simulation


WW: Tutorial (Moscone

West, Level 2, Room 2000)

WW: Tutorial (Moscone West,

Level 2, Room 2000)

WW1: Materials by Design: Predictive Modelling I

WW2: Materials by Design: Predictive Modelling II

WW3 WW WW4: Materials by Design: High Throughput I

WW5: Materials by Design: High Throughput II

WW6: Materials by Design: Advanced In-situ Characterization I

WW7: Materials by Design: Advanced in situ Characterization II

WW8/AAA10: Joint Session: Materials

by Design: Merging Advanced in-situ Synchrotron Characterization with Predictive Simulation (Moscone West, Level 3, Room 3024)"

WW9: Materials Microstructure by Design

WW10: Energy Materials by Design

XX Shape Programmable Materials Moscone West Level 3 Room 3022

XX1: Shape Programmable Materials - Memory Effects

XX2: Origami Design for Integration of Self-Assembling Systems for Engineering Innovation (ODISSEI) - FY12 Grantees Session I

XX3: Origami Design for Integration of Self-Assembling Systems for Engineering Innovation (ODISSEI) - FY12 Grantees Session II

XX4: Applications of ODISSEI

XX XX5: Responsive and Reconfigurable Shapes and Surfaces in Active Materials

XX6: Advances in Shape Programmable Materials Chemistry

XX7: Patterning and Assembly Techniques for Shape Programming

XX8 XX9: Adaptive Origami Implementations and Design Tools

XX10: Bioinspired Materials, Designs, and Instabilities

YY Meeting the Challenges of Understanding and Visualizing Mesoscale Phenomena


YY: Tutorial (Moscone, Level 2,

Room 2005)

YY1: Strategies for Assembly of Mesoscale Materials

YY2: Computing Challenges and Strategies

YY3 YY YY4: Multimodal Techniques and Correlated Data Acquisition I

YY5: Multimodal Techniques and Correlated Data Acquisition II

ZZ Advanced Characterization Techniques for Ion-Beam-Induced Effects in Materials


ZZ1: Advanced Characterization Techniques and Methods I

ZZ2: Ion Beam Modification of Thin Films, Surfaces and Nanostructures I

ZZ3/EEE2: Joint Session: Ion Damage in Nuclear

Environments (Moscone West, Level 2, Room 2016)

ZZ4 ZZ ZZ5: Ion Beam Modification of Thin Films, Surfaces and Nanostructures II

ZZ6: X-Ray Techniques

ZZ7: Advanced Characterization Techniques and Methods II

ZZ8: In-situ Measurements I

ZZ9: Advanced Characterization Techniques and Methods III

ZZ10: Ion Beam Modification of Thin Films, Surfaces and Nanostructures III

ZZ11: Advanced Computational Methods

ZZ12: In-situ Measurements II

AAA Applications of In-Situ Synchrotron Radiation Techniques in Nanomaterials Research


AAA: Tutorial (Moscone,

Level 2, Room 2010)

AAA: Tutorial (Moscone, Level 2,

Room 2010)

AAA1: Synthesis, Growth and Phase Transformation I

AAA2: Synthesis, Growth and Phase Transformation II

AAA3 AAA AAA4: Nanomaterials for Energy Applications

AAA5/SS4: Joint Session: In-situ Synchrotron Studies


AAA6: Biological and Bio-Inspired Materials

AAA7: Synthesis, Growth and Phase Transformation III

AAA8: In-situ Studies at Working Conditions - Catalysis I

AAA9: In-situ Studies at Working Conditions - Catalysis II

AAA10/WW8: Joint Session: Materials

by Design: Merging Advanced in-situ Synchrotron Characterization with Predictive Simulation

AAA11: In-situ Studies at Operating Conditions - Mechanical Properties

BBB Advances in Scanning Probe Microscopy for Material Properties


BBB1: Local Probing of Materials Properties I

BBB2: Local Probing of Materials Properties II

BBB3 BBB BBB4: Novel Developments of SPM Probes: Functional and Shielded Probes, Cantilever Interactions and Designs

BBB5: Data Analysis, Theory and Modeling

BBB6: Novel Developments of SPM Techniques: Multifrequency Approaches, Multidimensional Data Acquisition and Visualization, etc.

BBB7: Novel SPM Techniques Combined with Raman Spectroscopy, Electron Spectroscopy, etc.

BBB8: SPM Manipulation and Studies in Devices and Nanostructures

BBB9: SPM Studies of Biological Systems

CCC In-situ Characterization of Material Synthesis and Properties at the Nanoscale with TEM


CCC1: Nanoscale Mechanical Behavior Studied with TEM

CCC2: In-situ TEM of Phase Transformations

CCC3 CCC CCC4: Environmental Transmission Electron Microscopy

CCC5: TEM of Materials in a Liquid Environment

CCC6: Nanoscale Electrochemistry with TEM

DDD Atomic-Resolution Analytical Electron Microscopy of Disruptive and Energy-Related Materials


DDD1 DDD2 DDD3 DDD DDD4 DDD5

EEE Materials Behavior under Extreme Irradiation, Stress or Temperature


EEE1: Radiation Damage in Structural Alloys

EEE2/ZZ3: Joint Session: Ion Damage in Nuclear

Environments

EEE3 EEE EEE4: Radiation Damage in Oxides

EEE5: Fast Processes under Extreme Conditions

EEE6 EEE7: Microstructural Changes under Extremes

EEE8: Probing Small Scale Plasticity

EEE9: Modeling and Experimental Verification of Extreme Material Behavior

FFF Educating and Mentoring Young Materials Scientists for Career Development


FFF: Tutorial (Moscone, Level 2,

Room 2012)

FFF1: Mentoring Excellence in the Academic Milleu

FFF2: Raising a New Generation of Materials Scientists

FFF FFF3: Exploring Innovative Educational Paths in MS&E



mrs spring 2014 session locator

Documents