18 TECHNICAL SESSIONS Poster session details for each symposium can be found on page 26 and Tutorial details on page 106. LOCATION MONDAY TUESDAY AM PM AM PM Poster A Emerging Silicon Science and Technology Moscone West Level 3 Room 3002 Tutorial A: Silicon and Related Materials for Energy Conversion and Storage Tutorial A: Silicon and Related Materials for Energy Conversion and Storage A1: Amorphous and Nanocrystalline Films and Devices A2: Fundamental Concepts A3: Advanced Characterization and Simulation I A4: Advanced Characterization and Simulation II B Thin-Film Compound Semiconductor Photovoltaics Moscone West Level 3 Room 3003 Tutorial B: Young Scientist Tutorial on Characterization Techniques for Thin-Film Solar Cells Tutorial B: Young Scientist Tutorial on Characterization Techniques for Thin-Film Solar Cells B1: CIGS/CZTS B2: CdTe/Characterization B3 C Perovskite Solar Cells Moscone West Level 3 Room 3004 C1: Device and Processing I C2: Physics— Mechanism, Property and Theory I C3 D Organic-Based Photovoltaics Moscone West Level 3 Room 3005 D1: Towards High Open-Circuit Voltage D2: High Performance OPV D3: Charge Generation D4: Charge Transfer and Transport D5 E Advanced Solar Cells— Components to Systems Moscone West Level 3 Room 3006 E1: Silicon Solar Cells E2: Cross-Cutting Issues I E3 F Biohybrid Solar Cells— Photosynthesis-Based Photovoltaics and Photocatalytic Solar Cells Moscone West Level 3 Room 3007 G Next-Generation Electrochemical Energy Storage and Conversion Systems— Synthesis, Processing, Characterization and Manufacturing Moscone West Level 3 Room 3010/3012 G1: Lithium-Ion Battery Cathodes G2: Lithium Solid Electrolytes G3: Li/S Batteries G4: In Situ/Operando Characterization G5: New Device Architectures G6 H Mechanics of Energy Storage and Conversion— Batteries, Thermoelectrics and Fuel Cells Moscone West Level 3 Room 3008 H1: Lithium-Ion Battery - Mechanics H2: Characterization of Battery Materials and Devices I High Capacity Anode Materials for Lithium Ion Batteries Moscone West Level 3 Room 3009 I1: Si Based Anode I2: Metal Oxide Anode I3 J Latest Advances in Solar Water Splitting Moscone West Level 3 Room 3011 J1 J2 J3 J4 J5 K The Development of Oxygen Reduction Reaction (ORR) and Oxygen Evolution Reaction (OER) Materials in Energy Storage and Conversion Systems Moscone West Level 3 Room 3001 K1: Opening and General Aspects K2: Metal Oxide Catalysts L Bioinspired Micro- and Nano-Machines— Challenges and Perspectives Moscone West Level 2 Room 2006 Tutorial L: Bioinspired Micro- and Nanomachines and Devices (Moscone West, Level 3, Room 3008) Tutorial L: Bioinspired Micro- and Nanomachines and Devices (Moscone West, Level 3, Room 3008) L1: Artificial Nano/ Micromachines in Fluids I L2: Artificial Nano/ Micromachines in Fluids II M Nanoscale Heat Transport— From Fundamentals to Devices Moscone West Level 2 Room 2007 Tutorial M: Phonons in Thermal Transport and Biological Diagnostics (Moscone West, Level 3, Room 3001) M1: Thermal Switches M2: Interfacial Thermal Transport I M3: Interfacial Thermal Transport II M4: Thermal Energy Storage and Phase Change M5 N From Molecules to Colloidal Compound Semiconductor Nanocrystals— Advances in Mechanism-Enabled Design and Syntheses Moscone West Level 2 Room 2008 N1 N2 N3 ENERGY NANOMATERIALS
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18
TECHNICAL SESSIONSPoster session details for each symposium can be found on page 26 and Tutorial details on page 106.
LOCATION MONDAY TUESDAY WEDNESDAY THURSDAY FRIDAY
AM PM AM PM Poster AM PM Poster AM PM Poster AM PM
A Emerging Silicon Science and Technology
Moscone West Level 3 Room 3002
Tutorial A: Silicon and Related Materials for Energy Conversion and Storage
Tutorial A: Silicon and Related Materials for Energy Conversion and Storage
A1: Amorphous and Nanocrystalline Films and Devices
A2: Fundamental Concepts
A3: Advanced Characterization and Simulation I
A4: Advanced Characterization and Simulation II
A A5: Silicon Heterojunction and Passivated Contacts
A6: Tandem Cells
A7: Cell Materials Engineering
A8: Epitaxy on Silicon
A9: Novel Devices
A10: Novel Phenomena, Processes and Applications
A11: Printed, Exfoliated and Synthesized Silicon
A12: Laser Processing and Crystallization
A13, A14, A15, A16, A17, A18, A19, A20,
A21
A22: Silicon and Alloy Nanostructures
A23: Recent Advances
B Thin-Film Compound Semiconductor Photovoltaics
Moscone West Level 3 Room 3003
Tutorial B: Young Scientist Tutorial on Characterization Techniques for Thin-Film Solar Cells
Tutorial B: Young Scientist Tutorial on Characterization Techniques for Thin-Film Solar Cells
C Perovskite Solar Cells Moscone West Level 3 Room 3004
C1: Device and Processing I C2: Physics— Mechanism, Property and Theory I
C3 C C4: Device and Processing II C5:Physics—Mechanism, Property and Theory II
C6: Device and Processing III
C7: Perovskite Crystallization
C8: Lead-Free Perovskite Cells
C9: Physics—Mechanism, Property and Theory III
C10 C11: Device and Processing IV
C12: Device and Processing V
D Organic-Based Photovoltaics
Moscone West Level 3 Room 3005
D1: Towards High Open-Circuit Voltage
D2: High Performance OPV
D3: Charge Generation
D4: Charge Transfer and Transport
D5 D D6: Singlet Fission
D7: New Concepts
D8: Advanced Characterization
D9: Morphology
D10 D11: Eco-Friendly Routes
D12: Large Area Processing
D13: Recombination
D14: Degradation
D15 D16: New Materials
D17: Fullerene Free OPV
D18: Transparent Electrodes
D19: Interlayers
E Advanced Solar Cells— Components to Systems
Moscone West Level 3 Room 3006
E1: Silicon Solar Cells E2: Cross-Cutting Issues I E3 E E4: Cross-Cutting Issues II
E5: Tandem Cells
E6: Futuristic Solar Cells
F Biohybrid Solar Cells— Photosynthesis-Based Photovoltaics and Photocatalytic Solar Cells
Moscone West Level 3 Room 3007
F F1: Light Triggered Electron Transfers between Proteins and (Semi)Conducting Substrates
F2: Biosolar Cells—Photovoltaics and Photocatalytic Solar Cells
F3: Optimizing Interfaces—Proteins, Polymers, Cofactors and Substrates
F4: Interfacing Biological Complexes with Advanced Materials—Plasmonic, Carbon and Nanostructured Surfaces
F5: Biopolymers—Engineered Matrices for Solar Energy Harvesting
G Next-Generation Electrochemical Energy Storage and Conversion Systems—Synthesis, Processing, Characterization and Manufacturing
Moscone West Level 3 Room 3010/3012
G1: Lithium-Ion Battery Cathodes
G2: Lithium Solid Electrolytes
G3: Li/S Batteries G4: In Situ/Operando Characterization G5: New Device Architectures G6 G G7: Sodium Ion Batteries G8: Beyond Li-Ion Energy Storage Systems (Na-Ion, Mg-Ion)
G9 G10: CO2 Reduction/ Electrochemical Water Splitting
G11: Metal Air Batteries/Fuel Cells
G12 G13: Carbon Supercapacitors
G14: Pseudocapacitors
G15: Flexible Supercapacitors
H Mechanics of Energy Storage and Conversion— Batteries, Thermoelectrics and Fuel Cells
Moscone West Level 3 Room 3008
H1: Lithium-Ion Battery - Mechanics H2: Characterization of Battery Materials and Devices
H H3: Modeling of Battery Materials and Mechanics
H4: Novel Materials for Batteries
H5 H6: Solid Oxide Fuel Cells and Others
H7: Novel Materials for Energy Applications
H8: Thermoelectric Materials I
H9: Thermoelectric Materials II
I High Capacity Anode Materials for Lithium Ion Batteries
Moscone West Level 3 Room 3009
I1: Si Based Anode I2: Metal Oxide Anode I3 I I4: Nanostructural Design I5: Carbon Based Materials I6 I7: Structure Property Correlation
I8: Surface Coating, SEI Layer and Conversion
J Latest Advances in Solar Water Splitting
Moscone West Level 3 Room 3011
J1 J2 J3 J4 J5 J J6 J7 J8 J9 J10 J11 J12 J13
K The Development of Oxygen Reduction Reaction (ORR) and Oxygen Evolution Reaction (OER) Materials in Energy Storage and Conversion Systems
Moscone West Level 3 Room 3001
K1: Opening and General Aspects K2: Metal Oxide Catalysts K K3: Energy Storage and Conversion
C Perovskite Solar Cells Moscone West Level 3 Room 3004
C1: Device and Processing I C2: Physics— Mechanism, Property and Theory I
C3 C C4: Device and Processing II C5:Physics—Mechanism, Property and Theory II
C6: Device and Processing III
C7: Perovskite Crystallization
C8: Lead-Free Perovskite Cells
C9: Physics—Mechanism, Property and Theory III
C10 C11: Device and Processing IV
C12: Device and Processing V
D Organic-Based Photovoltaics
Moscone West Level 3 Room 3005
D1: Towards High Open-Circuit Voltage
D2: High Performance OPV
D3: Charge Generation
D4: Charge Transfer and Transport
D5 D D6: Singlet Fission
D7: New Concepts
D8: Advanced Characterization
D9: Morphology
D10 D11: Eco-Friendly Routes
D12: Large Area Processing
D13: Recombination
D14: Degradation
D15 D16: New Materials
D17: Fullerene Free OPV
D18: Transparent Electrodes
D19: Interlayers
E Advanced Solar Cells— Components to Systems
Moscone West Level 3 Room 3006
E1: Silicon Solar Cells E2: Cross-Cutting Issues I E3 E E4: Cross-Cutting Issues II
E5: Tandem Cells
E6: Futuristic Solar Cells
F Biohybrid Solar Cells— Photosynthesis-Based Photovoltaics and Photocatalytic Solar Cells
Moscone West Level 3 Room 3007
F F1: Light Triggered Electron Transfers between Proteins and (Semi)Conducting Substrates
F2: Biosolar Cells—Photovoltaics and Photocatalytic Solar Cells
F3: Optimizing Interfaces—Proteins, Polymers, Cofactors and Substrates
F4: Interfacing Biological Complexes with Advanced Materials—Plasmonic, Carbon and Nanostructured Surfaces
F5: Biopolymers—Engineered Matrices for Solar Energy Harvesting
G Next-Generation Electrochemical Energy Storage and Conversion Systems—Synthesis, Processing, Characterization and Manufacturing
Moscone West Level 3 Room 3010/3012
G1: Lithium-Ion Battery Cathodes
G2: Lithium Solid Electrolytes
G3: Li/S Batteries G4: In Situ/Operando Characterization G5: New Device Architectures G6 G G7: Sodium Ion Batteries G8: Beyond Li-Ion Energy Storage Systems (Na-Ion, Mg-Ion)
G9 G10: CO2 Reduction/ Electrochemical Water Splitting
G11: Metal Air Batteries/Fuel Cells
G12 G13: Carbon Supercapacitors
G14: Pseudocapacitors
G15: Flexible Supercapacitors
H Mechanics of Energy Storage and Conversion— Batteries, Thermoelectrics and Fuel Cells
Moscone West Level 3 Room 3008
H1: Lithium-Ion Battery - Mechanics H2: Characterization of Battery Materials and Devices
H H3: Modeling of Battery Materials and Mechanics
H4: Novel Materials for Batteries
H5 H6: Solid Oxide Fuel Cells and Others
H7: Novel Materials for Energy Applications
H8: Thermoelectric Materials I
H9: Thermoelectric Materials II
I High Capacity Anode Materials for Lithium Ion Batteries
Moscone West Level 3 Room 3009
I1: Si Based Anode I2: Metal Oxide Anode I3 I I4: Nanostructural Design I5: Carbon Based Materials I6 I7: Structure Property Correlation
I8: Surface Coating, SEI Layer and Conversion
J Latest Advances in Solar Water Splitting
Moscone West Level 3 Room 3011
J1 J2 J3 J4 J5 J J6 J7 J8 J9 J10 J11 J12 J13
K The Development of Oxygen Reduction Reaction (ORR) and Oxygen Evolution Reaction (OER) Materials in Energy Storage and Conversion Systems
Moscone West Level 3 Room 3001
K1: Opening and General Aspects K2: Metal Oxide Catalysts K K3: Energy Storage and Conversion
XX1: Structural Materials in Nuclear Reactors— Evolution of Radiation-Induced Defects
XX2: Radiation Tolerant Nanomaterials for Nuclear Applications
XX XX3: Microstructure and Properties of Nuclear Fuels— Thermal Transport and Fission Product
XX4: Microstructure and Properties of Nuclear Fuels— Microstructure Evolution
XX5 XX6: Structural Materials in Nuclear Reactors—Evolution of Radiation-Induced Defects in BCC Metals
XX7: Structural Materials in Nuclear Reactors—Solute Precipitation and Mechanical Properties
XX8: Theories of Radiation Damage and Effects of Helium and Hydrogen on Microstructure and Properties of Nuclear Materials (Moscone West, Level 2, Room 2006)
XX9: Radiation Induced Defect Production in Nuclear Materials (Moscone West, Level 2, Room 2006)
YY Insights for Energy Materials Using In Situ Characterization
Marriott Marquis Yerba Buena Level Nob Hill A/B
YY1: Soft X-Ray In Situ Probes—Ambient Pressure XPS and Related Techniques I
YY2: Soft X-Ray In Situ Probes—Ambient Pressure XPS and Related Techniques II
YY3: Spectroscopy from First Principles and Photon-In/Photon-Out Methods I
YY4: Spectroscopy from First Principles and Photon-In/Photon-Out Methods II
YY YY5: Soft X-Ray Microscopy, XPS and Related Methods I
YY6: Soft X-Ray Microscopy, XPS and Related Methods II
YY7: Designing Functionality— Theory and Experiment
YY8: In Situ Measurements Using Neutrons
YY9 YY10: In Situ X-Ray Diffraction Methods I
YY11: In Situ X-Ray Diffraction Methods II
YY12: Optical Methods, Scattering and Spectroscopy
YY13: In Situ SPM
YY14: In Situ TEM I (Moscone West, Level 2, Room 2008)
YY15: In Situ TEM II (Moscone West, Level 2, Room 2008)
ZZ Materials Information UsingNovelTechniquesinElectron Microscopy
Marriott Marquis Yerba Buena Level Nob Hill C/D
ZZ1: Adding the Third Dimension
ZZ2: Mapping Fields I
ZZ3: Mapping Fields II
ZZ4: Novel Imaging and Structure Solution Methods
ZZ5 ZZ ZZ6: Adding the Time Dimension/In Situ I
ZZ7: Adding the Time Dimension/In Situ II
ZZ8: Probing Optical Properties on the Nanoscale
ZZ9: Advances in Electron Spectroscopy
ZZ10: New Information by Shaping the Electron Probe (Moscone West, Level 2, Room 2003)
GE
NE
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FA
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CH
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LOCATION MONDAY TUESDAY WEDNESDAY THURSDAY FRIDAY
AM PM AM PM Poster AM PM Poster AM PM Poster AM PM
Poster session details for each symposium can be found on page 26 and Tutorial details on page 106.
TECHNICAL SESSIONS
MA
PS
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CH
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QQ Plasma-Based Materials Science and Engineering
Marriott Marquis Yerba Buena Level Salon 4/5
QQ1: Physical Vapor Deposition QQ2: Optical and Electrical Properties of Plasma Synthesized and Functionalized Materials
QQ QQ3: Plasma Synthesis and Treatment of Nanoparticles and Metal/Dielectric Nanocomposite Films I
QQ4: Plasma Synthesis and Treatment of Nanoparticles and Metal/Dielectric Nanocomposite Films II
QQ5: Plasma Surface Functionalization
QQ6: Plasma Surface Interactions
QQ7: In-Liquid and Atmospheric Plasma
QQ8
RR Solution Syntheses of Inorganic Functional/ Multifunctional Materials
Marriott Marquis Golden Gate Level C2
RR1: Inorganic/Organic Hybrid, Porous Monolith and Films I
RR2: Inorganic/Organic Hybrid, Porous Monolith and Films II
RR3 RR RR4: Multifunctional Thin Films and Composites for Flexible Devices I
RR5: Multifunctional Thin Films and Composites for Flexible Devices II
RR6: Heterogeneous/ Anisotropic Nanostructures and Functions I
RR7: Heterogeneous/ Anisotropic Nanostructures and Functions II
RR8 RR9: Nanopowders, Nanocrystals, Assemblies and Optical Applications I (Moscone West, Level 3, Room 3009)
RR10: Nanopowders, Nanocrystals, Assemblies and Optical Applications II (Moscone West, Level 3, Room 3009)
SS Oxide Thin Films and Nanostructures for Advanced Electrical, Optical and Magnetic Applications
Marriott Marquis Golden Gate Level Ballroom A
SS1: Epitaxy of Complex Oxides—Mechanisms and Defects
SS2: Complex Oxides— Emerging Functionalities
SS3: Oxides on Silicon
SS4: 2DEGs at Oxide Interfaces
SS5 SS SS6: Magnetoelectric Oxides
SS7: Ferroelectric Oxides I
SS8: Ferroelectric Oxides II
SS9: Magnetic Oxides
SS10 SS11: Oxide Thin Films—New Growth Processes and Structures I
SS12: Semiconducting Oxides
SS13: Semiconducting Oxide Thin Films—Growth I
SS14: Semiconducting Oxide Thin Films—Properties I
SS15 SS16: Oxide Thin Films—New Growth Processes and Structures II (Moscone West, Level 2, Room 2011)
SS17/TT16: Joint Session: Metal Oxides—
Fabrication and Light-Matter Interactions (Moscone West, Level 2, Room 2011)
XX1: Structural Materials in Nuclear Reactors— Evolution of Radiation-Induced Defects
XX2: Radiation Tolerant Nanomaterials for Nuclear Applications
XX XX3: Microstructure and Properties of Nuclear Fuels— Thermal Transport and Fission Product
XX4: Microstructure and Properties of Nuclear Fuels— Microstructure Evolution
XX5 XX6: Structural Materials in Nuclear Reactors—Evolution of Radiation-Induced Defects in BCC Metals
XX7: Structural Materials in Nuclear Reactors—Solute Precipitation and Mechanical Properties
XX8: Theories of Radiation Damage and Effects of Helium and Hydrogen on Microstructure and Properties of Nuclear Materials (Moscone West, Level 2, Room 2006)
XX9: Radiation Induced Defect Production in Nuclear Materials (Moscone West, Level 2, Room 2006)
YY Insights for Energy Materials Using In Situ Characterization
Marriott Marquis Yerba Buena Level Nob Hill A/B
YY1: Soft X-Ray In Situ Probes—Ambient Pressure XPS and Related Techniques I
YY2: Soft X-Ray In Situ Probes—Ambient Pressure XPS and Related Techniques II
YY3: Spectroscopy from First Principles and Photon-In/Photon-Out Methods I
YY4: Spectroscopy from First Principles and Photon-In/Photon-Out Methods II
YY YY5: Soft X-Ray Microscopy, XPS and Related Methods I
YY6: Soft X-Ray Microscopy, XPS and Related Methods II
YY7: Designing Functionality— Theory and Experiment
YY8: In Situ Measurements Using Neutrons
YY9 YY10: In Situ X-Ray Diffraction Methods I
YY11: In Situ X-Ray Diffraction Methods II
YY12: Optical Methods, Scattering and Spectroscopy
YY13: In Situ SPM
YY14: In Situ TEM I (Moscone West, Level 2, Room 2008)
YY15: In Situ TEM II (Moscone West, Level 2, Room 2008)
ZZ Materials Information UsingNovelTechniquesinElectron Microscopy
Marriott Marquis Yerba Buena Level Nob Hill C/D
ZZ1: Adding the Third Dimension
ZZ2: Mapping Fields I
ZZ3: Mapping Fields II
ZZ4: Novel Imaging and Structure Solution Methods
ZZ5 ZZ ZZ6: Adding the Time Dimension/In Situ I
ZZ7: Adding the Time Dimension/In Situ II
ZZ8: Probing Optical Properties on the Nanoscale
ZZ9: Advances in Electron Spectroscopy
ZZ10: New Information by Shaping the Electron Probe (Moscone West, Level 2, Room 2003)
LOCATION MONDAY TUESDAY WEDNESDAY THURSDAY FRIDAY
AM PM AM PM Poster AM PM Poster AM PM Poster AM PM
26
Poster Session Schedule
THURSDAY
A13 Poster Session: Amorphous and Nanocrystalline Films and Devices
A14 Poster Session: Advanced Characterization and Simulation
A15 Poster Session: Silicon Heterojunction and Passivated Contact Solar Cells
A16 Poster Session: Cell Materials Engineering
A17 Poster Session: Epitaxy on Silicon
A18 Poster Session: Novel Phenomena, Processes and Applications
A19 Poster Session: Printed, Exfoliated and Synthesized Silicon
A20 Poster Session: Laser Processing and Crystallization
A21 Poster Session: Silicon and Alloy Nanostructures
B9 Poster Session III
C10 Poster Session II
D15 Poster Session III: Morphology and New Materials
Winning posters will be displayed near Info on the Golden Gate Level for the remainder of the Meeting and can be removed by the authors at their convenience. Unless you are the winner of a “Best Poster Award,” it is extremely important that you remove your poster at the end of your poster session. Posters left on the boards after 11:00 pm will be discarded.
Authors Check In & Display Posters ..............................................8:00 am – 5:00 pm*
* Authors must be with their posters at the start of general viewing to be eligible for a Best Poster Award. Winning Posters will be displayed near the entrance of the Poster Session.