Name & Company Information Location Interests Events
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Pavel Moroz

Bowling Green State University

Bowling Green

United States

Performance - Material Form>Nanostructure EP02.04.06 : Lifting the Spectral Crosstalk in Multi-Fluorophore Assemblies
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Mr. Taylor Ware

The University of Texas at Dallas

Richardson

United States

Composition & Microstructure - Material Type>Polymer SM08.04.07 : Programmable Shape Change in Chromonic Liquid Crystal Hydrogels
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Yong Shi

Binghamton University

Binghamton

United States

Composition & Microstructure - Bulk Techniques>Differential Thermal Analysis (Dta), Composition & Microstructure - Bulk Techniques>Neutron Scattering, Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Chemical Element>Li, Composition & Microstructure - Features>Grain Size, Composition & Microstructure - Material Type>Compound, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Performance - Functionality>Energetic Material, Performance - Functionality>Energy Generation, Performance - Functionality>Energy Storage, Performance - Functionality>Ionic Conductor, Performance - Theory>Kinetics, Synthesis & Processing - Chemical Reaction>Chemical Synthesis, Synthesis & Processing - Chemical Reaction>Chemical Vapor Deposition (Cvd) (Chemical Reaction), Synthesis & Processing - Chemical Reaction>Sol-Gel, Synthesis & Processing - Growth>Crystal Growth EN06.08.05 : High Rate and Stable Cycling of High Energy Cathode LiVOPO4 with Nanosizing, Carbon Coating and Structure Reconstruction by a Mechanical-Thermal Method
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Mr. Longxing Chi

McMaster University

Hamilton

Canada

Composition & Microstructure - Chemical Element>Si, Composition & Microstructure - Features>Grain Boundaries, Composition & Microstructure - Features>Grain Size, Composition & Microstructure - Material Type>2D Materials, Composition & Microstructure - Material Type>Thin Film, Composition & Microstructure - Near Surface Techniques>Raman Spectroscopy, Composition & Microstructure - Near Surface Techniques>Scanning Transmission Electron Microscopy (Stem), Composition & Microstructure - Near Surface Techniques>Scanning Tunneling Microscopy (Stm), Composition & Microstructure - Near Surface Techniques>Transmission Electron Microscopy (Tem), Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Performance - Functionality>Devices, Performance - Functionality>Electronic Material, Performance - Material Form>Film, Properties - Chemical>Surface Chemistry, Properties - Transport>Electronic Structure, Synthesis & Processing - Deposition>Epitaxy, Synthesis & Processing - Deposition>Ion-Implantation, Synthesis & Processing - Deposition>Molecular Beam Epitaxy (Mbe), Synthesis & Processing - Growth>Crystal Growth, Synthesis & Processing - Transformation>Annealing NM01.08.02 : Thin-Film Dewetting Prevention by Ion Implantation
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Ms. Yichun Wang

University of Michigan

Ann Arbor

United States

Composition & Microstructure - Features>Chemical Composition, Composition & Microstructure - Features>Crystallographic Structure, Composition & Microstructure - Features>Macromolecular Structure, Composition & Microstructure - Features>Morphology, Composition & Microstructure - Features>Porosity, Composition & Microstructure - Features>Texture, Composition & Microstructure - Material Type>Biological, Composition & Microstructure - Material Type>Biomaterial, Composition & Microstructure - Material Type>Bone, Composition & Microstructure - Material Type>Cellular (Material Type), Composition & Microstructure - Material Type>Polymer, Composition & Microstructure - Material Type>Steel, Composition & Microstructure - Material Type>Tissue, Composition & Microstructure - Material Type>Water SM04.02.03 : WITHDRAWN 3/13/2018 SM04.02.03 Anti-Biofilm Activity of Graphene Quantum Dots via Self-Assembly with Bacterial Amyloid Proteins
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Nicholas Glavin

Air Force Research Laboratory

NM11.01.03 : Laser Processing of 2D Materials for Flexible Electronics
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Henning Sirringhaus

Cambridge University

Cambridge

United Kingdom

Composition & Microstructure - Material Type>Organic, Performance - Functionality>Semiconducting EP08.04.05 : High Mobility Polymer Field Effect Transistors for Applications in Flexible Electronics, MA02.06.01 : Charge Transport and Thermoelectric Physics of High Mobility Organic Semiconductors
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Mr. Xiangfan Chen

Northwestern Medicine

Evanston

United States

NM09.01.06 : Gigahertz All-Optical Modulation Using Reconfigurable Plasmonic Metamaterials, MA04.10.04 : High-Throughput 3D Printing of Millimeter-Size Customized Aspheric Imaging Lenses
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Takamasa Sakai

The University of Tokyo

Tokyo

Japan

Composition & Microstructure - Bulk Techniques>Neutron Scattering, Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Features>Macromolecular Structure, Composition & Microstructure - Material Type>Polymer, Performance - Material Form>Amorphous, Properties - Mechanical>Elastic Properties, Properties - Mechanical>Fracture, Properties - Mechanical>Strength, Properties - Mechanical>Stress/Strain Relationship, Properties - Mechanical>Toughness, Properties - Mechanical>Viscoelasticity SM08.07.03 : Instantly Formative Hydrogels with Super-Low Polymeric Component
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Larissa Kunz

Stanford University

Stanford

United States

Composition & Microstructure - Material Type>Carbon Dioxide, Composition & Microstructure - Material Type>Geologic, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Nuclear Materials, Composition & Microstructure - Material Type>Water, Performance - Functionality>Catalytic, Performance - Functionality>Devices, Performance - Functionality>Efficiency, Performance - Functionality>Electronic Material, Performance - Functionality>Energetic Material, Performance - Functionality>Energy Generation, Performance - Functionality>Energy Storage, Performance - Functionality>Environmentally Protective, Performance - Functionality>Optical, Performance - Functionality>Optoelectronic, Performance - Functionality>Semiconducting, Performance - Functionality>Waste Management, Properties - Radiation>Luminescence, Properties - Radiation>Optical Properties, Properties - Radiation>Photoemission, Properties - Thermal>Thermal Conductivity, Properties - Transport>Absorption, Properties - Transport>Dielectric Properties, Properties - Transport>Electron-Phonon Interactions, Properties - Transport>Photoconductivity, Properties - Transport>Photoreflectance NM04.01.02 : Electron Excitation and Charge Separation in Titania Composites for Sustainable Hydrogen Production
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Teppei Araki

Osaka University

Osaka

Japan

Composition & Microstructure - Chemical Element>Ag, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Polymer, Performance - Functionality>Electronic Material, Properties - Mechanical>Elastic Properties, Properties - Transport>Electrical Properties, Synthesis & Processing - Deposition>Ink-Jet Printing, Synthesis & Processing - Deposition>Screen Printing SM03.02.02 : Two-Months-Implantable Neural Interface Integrated with Transparent and Stretchable Metal-Nanowire-Based Tracks
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Yuanbing Mao

The University of Texas Rio Grande Valley

Edinburg

United States

Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Features>Chemical Composition, Composition & Microstructure - Features>Crystallographic Structure, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Material Type>Ceramic, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Near Surface Techniques>Infrared (Ir) Spectroscopy, Composition & Microstructure - Near Surface Techniques>Transmission Electron Microscopy (Tem), Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Composition & Microstructure - Surface Techniques>X-Ray Photoelectron Spectroscopy (Xps), Performance - Functionality>Catalytic, Performance - Functionality>Dopant, Performance - Functionality>Electronic Material, Performance - Functionality>Energy Storage, Performance - Functionality>Environmentally Protective, Performance - Functionality>Ferroelectric, Performance - Functionality>Ferromagnetic, Performance - Functionality>Memory, Performance - Functionality>Optical, Performance - Functionality>Waste Management, Performance - Material Form>Core/Shell, Performance - Material Form>Crystal, Performance - Material Form>Fiber, Performance - Material Form>Nanostructure EN18.02.02 : Design of Hierarchical Nanostructured ZnO Network for Efficient Photoelectrocatalytic Water Splitting, EN17.03.09 : Effect of Gamma-Ray Irradiation on Rare-Earth Hafnate Nanocrystals, EN19.12.03 : (Photo)electrocatalytic Properties of p-Type Delafossite CuMO2 Oxides
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Kai Xiao

Oak Ridge National Laboratory

Oak Ridge

United States

Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Organic, Composition & Microstructure - Material Type>Organometallic, Composition & Microstructure - Material Type>Polymer, Composition & Microstructure - Near Surface Techniques>Raman Spectroscopy, Composition & Microstructure - Near Surface Techniques>Transmission Electron Microscopy (Tem), Performance - Functionality>Devices, Performance - Functionality>Efficiency, Performance - Functionality>Electronic Material, Performance - Functionality>Energy Generation, Performance - Functionality>Photovoltaic, Performance - Material Form>Nanostructure, Properties - Transport>Electrical Properties, Properties - Transport>Electronic Structure, Properties - Transport>Metal-Insulator Transition NM11.01.04 : Strain-Engineered Growth of 2D Materials on Patterned Substrates
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Wenjie Li

University of Wisconsin--Madison

Madison

United States

Composition & Microstructure - Chemical Element>Co, Composition & Microstructure - Chemical Element>Fe, Composition & Microstructure - Chemical Element>Li, Composition & Microstructure - Chemical Element>Si, Composition & Microstructure - Material Type>Iii-V, Composition & Microstructure - Material Type>Organic, Performance - Functionality>Devices, Performance - Functionality>Energy Generation, Performance - Functionality>Energy Storage, Performance - Functionality>Environmentally Protective, Performance - Functionality>Photovoltaic, Performance - Functionality>Semiconducting, Performance - Material Form>Liquid, Performance - Theory>Kinetics, Properties - Chemical>Surface Chemistry, Properties - Transport>Diffusion, Properties - Transport>Electromigration, Synthesis & Processing - Chemical Reaction>Electrochemical Synthesis, Synthesis & Processing - Deposition>Atomic Layer Deposition, Synthesis & Processing - Deposition>Sputtering EN09.01.02 : Highly Efficient Monolithically Integrated Solar Flow Battery
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Benjia Dou

National Renewable Energy Laboratory

Lakewood

United States

Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Chemical Element>Pb, Composition & Microstructure - Features>Chemical Composition, Composition & Microstructure - Features>Crystallographic Structure, Composition & Microstructure - Features>Defects, Composition & Microstructure - Features>Grain Boundaries, Composition & Microstructure - Features>Grain Size, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Features>Molecular Weight, Composition & Microstructure - Features>Morphology, Composition & Microstructure - Features>Texture, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Compound, Composition & Microstructure - Material Type>Thin Film, Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Composition & Microstructure - Surface Techniques>X-Ray Photoelectron Spectroscopy (Xps), Performance - Functionality>Absorbent EN02.11.06 : FAMACs Triple Cation Perovskite Ink Aging—Its Instability and a Solution
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Alexander Colsmann

Karlsruhe Institute of Technology

Karlsruhe

Germany

EP02.05.05 : Thermally Stable Polymer—Fullerene Solar Cells Using Bisazide Crosslinkers, EN15.08.08 : Ferroelectric Domains in Methylammonium Lead Iodide Thin-Film Solar Cells
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Sang-Hyung Kim

Hanyang University

Seoul

Korea, Republic of

Composition & Microstructure - Bulk Techniques>Nuclear Magnetic Resonance (Nmr), Composition & Microstructure - Chemical Element>Si, Composition & Microstructure - Material Type>Alloy, Non-technical - Education>Academic, Non-technical - Government Interactions>Government Policy And Funding EN10.13.42 : Improvement of the Cycling Performance of Silicon Alloy Electrode by Double-Layer Coating with Porous Graphene and Conductive Polymer, EN10.13.43 : Surface Modification of Silicon Alloy Materials for Lithium-Ion Battery Applications
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Nicki Hogan

Texas A&M University

College Station

United States

NM09.01.09 : Plasmonic Metal Nanostructures for Use in Solar-Thermal Thermionic Optical Power Converters
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Mr. Yeongjun Lee

postech

Pohang, Gyeongbuk

Korea, Republic of

MA02.06.09 : Stretchable Organic Artificial Synapse for Wireless Communication and Biomimetic Motor System
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Jennifer Dionne

Stanford University

Stanford

United States

Composition & Microstructure - Chemical Element>Ag, Performance - Material Form>Crystal, Performance - Material Form>Nanostructure, Performance - Theory>Simulation, Properties - Radiation>Luminescence, Properties - Radiation>Optical Properties Tutorial NM09—Plasmonics, Metamaterials and Metasurfaces for Manipulating Light at the Nanoscale , NM09.01.12 : Nonreciprocal Nanophotonics with Dielectric and Plasmonic Metasurfaces