Name & Company Information Location Interests Events
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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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Magnus Berggren

Linkoping University

Norrkoping

Sweden

Composition & Microstructure - Material Type>Organic, Performance - Functionality>Electronic Material, Synthesis & Processing - Deposition>Screen Printing SM06.02.05 : Electronics Fibers and Capillaries for In Vivo Neuronal Applications, SM07.04.02 : Batteries and Supercapacitors Based on Biopolymers from the Forest, SM03.03.08 : An Intra-Body Network Based on Organic Electronics to Regulate Signaling and Physiology in Biological Systems
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Dr Sehmus Ozden

Los Alamos National Laboratory

Los Alamos

United States

Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Bulk Techniques>Thermogravimetric Analysis (Tga), Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Features>Chemical Composition, Composition & Microstructure - Features>Macromolecular Structure, Composition & Microstructure - Features>Porosity, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Organic, Composition & Microstructure - Material Type>Polymer, Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Non-technical - Education>Education, Performance - Functionality>Energy Storage, Performance - Material Form>Aerogel, Performance - Material Form>Crystal, Performance - Material Form>Foam, Properties - Chemical>Adsorption, Properties - Chemical>Surface Chemistry, Properties - Mechanical>Elastic Properties, Properties - Mechanical>Fracture, Properties - Mechanical>Hardness, Properties - Mechanical>Strength, Properties - Mechanical>Stress/Strain Relationship, Properties - Mechanical>Superplasticity, Properties - Mechanical>Toughness, Properties - Transport>Electrical Properties, Properties - Transport>Field Emission, Synthesis & Processing - Assembly>Biomimetic (Assembly), Synthesis & Processing - Assembly>Bonding, Synthesis & Processing - Assembly>Soldering, Synthesis & Processing - Chemical Reaction>Biomimetic (Chemical Reaction), Synthesis & Processing - Chemical Reaction>Chemical Substitution, Synthesis & Processing - Chemical Reaction>Chemical Synthesis, Synthesis & Processing - Chemical Reaction>Chemical Vapor Deposition (Cvd) (Chemical Reaction), Synthesis & Processing - Deposition>Chemical Vapor Deposition (Cvd) (Deposition), Synthesis & Processing - Deposition>Ion-Beam Assisted Deposition, Synthesis & Processing - Deposition>Sputtering, Synthesis & Processing - Growth>Crystal Growth, Synthesis & Processing - Removal>Freeze Drying WITHDRAWN - NM04.04.06 : Hybrid Porous Nanostructures as Efficient Water-Splitting Electrocatalysts, WITHDRAWN - EP05.07.02 : Controlling the Crystal Orientation of Two-Dimensional and Three-Dimensional Thin-Film Perovskites
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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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Leo Small

Sandia National Laboratories

Albuquerque

United States

Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Chemical Element>Er, Composition & Microstructure - Chemical Element>Lanthanide, Composition & Microstructure - Chemical Element>Na, Composition & Microstructure - Chemical Element>Rare-Earths, Performance - Functionality>Energy Storage, Synthesis & Processing - Assembly>Self-Assembly EN09.03.05 : Chemically Mediated Redox Flow Batteries for Modular Energy Storage, EN21.02.01 : Improving Solid State Sodium Ion Conductors for Next Generation Energy Storage, EN11.14.02 : Polyelectrolytes for Selective Ion Transport in Nanoporous Electrodialysis Membranes
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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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Maarit Karppinen

Aalto Univ

Espoo

Finland

Annealing, Atomic Layer Deposition, BI, Ba, Bonding, CA, CE, CO, CU, Ceramic, Chemical Reaction, Coating, Composite, Compound, Dy, EU, Electrical Properties, Electronic Material, Electronic Structure, Energy Generation, Energy Storage, Er, Fe, Ferromagnetic, Film, GA, Gd, Hg, Hydrothermal, LA, Lanthanide, Layered, Li, Lu, MG, MN, Magnetic, Magnetoresistance (transport), Mo, Mossbauer Effect, ND, Neutron Scattering, Organic, Oxidation, Oxide, Rare-earths, Spintronic, Superconducting, TI, Ta, Thermal Conductivity, Thermoelectric, Thermoelectricity, Thermogravimetric Analysis (TGA), Thin Film, X-ray Diffraction (XRD), Yb, Zn EN05.04.06 : Flexible Inorganic-Organic Thin Films for Energy Harvesting and Storage
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Dr. Stephan Lany

National Renewable Energy Laboratory

Lakewood

United States

Composition & Microstructure - Chemical Element>Al, Composition & Microstructure - Chemical Element>Ca, Composition & Microstructure - Chemical Element>Cd, Composition & Microstructure - Chemical Element>Cr, Composition & Microstructure - Chemical Element>Fe, Composition & Microstructure - Chemical Element>Ga, Composition & Microstructure - Chemical Element>Mg, Composition & Microstructure - Chemical Element>Mn, Composition & Microstructure - Chemical Element>Ni, Composition & Microstructure - Chemical Element>Sb, Composition & Microstructure - Chemical Element>Si, Composition & Microstructure - Chemical Element>Sn, Composition & Microstructure - Chemical Element>Sr, Composition & Microstructure - Chemical Element>Ti, Composition & Microstructure - Chemical Element>Zn, Composition & Microstructure - Features>Crystallographic Structure, Composition & Microstructure - Features>Defects, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Ceramic, Composition & Microstructure - Material Type>Compound, Composition & Microstructure - Material Type>Ii-Vi, Composition & Microstructure - Material Type>Iii-V, Composition & Microstructure - Material Type>Nitride, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Thin Film, Performance - Functionality>Dopant, Performance - Functionality>Electronic Material, Performance - Functionality>Energetic Material, Performance - Functionality>Energy Generation, Performance - Functionality>Insulator, Performance - Functionality>Optical, Performance - Functionality>Photovoltaic, Performance - Functionality>Semiconducting, Performance - Functionality>Spintronic, Performance - Functionality>Thermoelectric, Performance - Material Form>Amorphous, Performance - Material Form>Crystal, Performance - Theory>Kinetics, Performance - Theory>Simulation, Properties - Magnetic>Magnetic Properties, Properties - Transport>Electrical Properties, Properties - Transport>Electronic Structure, Properties - Transport>Thermoelectricity, Synthesis & Processing - Chemical Reaction>Oxidation EN19.13.03 : Predicting Real Materials—The Electronic Structure of Oxygen Containing, Non-Stoichiometric, and Disordered ZnSnN2
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Wallace Choy

University of Hong Kong

Hong Kong

China

Composition & Microstructure - Chemical Element>Au, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Material Type>Ii-Vi, Composition & Microstructure - Material Type>Iii-V, Composition & Microstructure - Material Type>Organic, Performance - Functionality>Laser, Performance - Functionality>Optoelectronic, Performance - Functionality>Photovoltaic, Performance - Material Form>Fiber, Performance - Material Form>Nanostructure, Properties - Radiation>Optical Properties, Properties - Radiation>Photoemission, Properties - Transport>Photoreflectance EN02.01.02 : Understanding and Quantifying the Efficiency Loss of Perovskite Solar Cells, EN15.07.10 : Exploring the Way to Approach the Efficiency Limit of Perovskite Solar Cells by Drift-Diffusion Model
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Yves Chabal

Univ of Texas-Dallas

Richardson

United States

Composition & Microstructure - Chemical Element>Ge, Composition & Microstructure - Chemical Element>Si, Composition & Microstructure - Material Type>Iii-V, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Thin Film, Composition & Microstructure - Near Surface Techniques>Infrared (Ir) Spectroscopy, Composition & Microstructure - Surface Techniques>Ion Scattering Spectroscopy (Iss), Composition & Microstructure - Surface Techniques>X-Ray Photoelectron Spectroscopy (Xps), Performance - Functionality>Catalytic, Performance - Functionality>Electronic Material, Performance - Functionality>Energetic Material, Performance - Functionality>Energy Storage, Performance - Functionality>Microelectronics, Performance - Functionality>Passivation, Performance - Functionality>Photovoltaic, Performance - Functionality>Semiconducting, Performance - Functionality>Sensor, Performance - Functionality>Storage, Performance - Material Form>Coating, Performance - Material Form>Film, Performance - Material Form>Nanostructure, Properties - Chemical>Adsorption, Properties - Chemical>Surface Chemistry, Synthesis & Processing - Chemical Reaction>Hydrogenation, Synthesis & Processing - Chemical Reaction>Oxidation, Synthesis & Processing - Chemical Reaction>Surface Reaction, Synthesis & Processing - Deposition>Atomic Layer Deposition NM04.07.04 : Characterization of Gold Nanoparticles Synthesized Within Functionnalized Metal Organic Framework Materials Using Imaging, Spectroscopy and Photocatalytic Hydrogen Production
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Prof. Clara Santato

Polytechnique Montréal

Montreal

Canada

Composition & Microstructure - Features>Grain Boundaries, Composition & Microstructure - Features>Grain Size, Composition & Microstructure - Features>Texture, Composition & Microstructure - Material Type>Ceramic, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Organic, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Polymer, Composition & Microstructure - Near Surface Techniques>Infrared (Ir) Spectroscopy, Composition & Microstructure - Near Surface Techniques>Raman Spectroscopy, Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Composition & Microstructure - Surface Techniques>Scanning Probe Microscopy (Spm), Performance - Functionality>Absorbent, Performance - Functionality>Devices, Performance - Functionality>Electronic Material, Performance - Functionality>Energetic Material, Performance - Functionality>Optical, Performance - Functionality>Optoelectronic, Performance - Functionality>Photovoltaic, Performance - Functionality>Semiconducting, Performance - Functionality>Sensor, Performance - Functionality>Transparent Conductor, Performance - Material Form>Amorphous, Performance - Material Form>Colloid, Performance - Material Form>Core/Shell, Performance - Material Form>Crystal, Performance - Material Form>Film, Performance - Material Form>Nanostructure, Performance - Material Form>Polycrystal, Properties - Radiation>Luminescence, Properties - Radiation>Optical Properties, Properties - Thermal>Vapor Pressure, Properties - Transport>Absorption, Properties - Transport>Electrical Properties, Properties - Transport>Electronic Structure, Properties - Transport>Photoconductivity, Synthesis & Processing - Assembly>Self-Assembly, Synthesis & Processing - Chemical Reaction>Electrochemical Synthesis, Synthesis & Processing - Chemical Reaction>Sol-Gel, Synthesis & Processing - Deposition>Electrodeposition, Synthesis & Processing - Deposition>Ink-Jet Printing, Synthesis & Processing - Transformation>Annealing 2018 MRS Communications Lecture, SM07.04.07 : En Route Towards Eumelanin Photocapacitors, EN19.09.27 : Tungsten Oxide Ion Gel-Gated Transistors—How Structural and Electrochemical Properties Affect the Doping Mechanism, EN16.08.01 : Materials and Devices—Towards Green Electronics
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Ji-Guang Zhang

Pacific Northwest National Laboratory

Richland

United States

Additives, Alloy, Carbonization, Chemical Reaction, Chemical Substitution, Coating, Electrical Properties, Energetic Material, Energy Generation, Energy Storage, Film, Li, Slurry, Sol-gel, Thin Film EN01.05.01 : The Effect of Grain Boundary Structure of Cathode Particles on Cycle Stability of Lithium-Ion Battery, EN06.14.01 : Highly Stable Lithium Metal Batteries Enabled by Localized High Concentration Electrolytes
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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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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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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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Stefania Privitera

CNR

Catania

Italy

Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Chemical Element>Ge, Composition & Microstructure - Chemical Element>Hf, Composition & Microstructure - Chemical Element>Sb, Composition & Microstructure - Chemical Element>Te, Composition & Microstructure - Features>Crystallographic Structure, Composition & Microstructure - Features>Defects, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Compound, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Thin Film, Performance - Functionality>Devices, Performance - Functionality>Electronic Material, Performance - Functionality>Metallic Conductor, Performance - Functionality>Microelectronics, Performance - Functionality>Storage, Performance - Material Form>Film, Properties - Radiation>Optical Properties, Properties - Transport>Electrical Properties, Properties - Transport>Electromigration, Properties - Transport>Metal-Insulator Transition, Synthesis & Processing - Transformation>Annealing, Synthesis & Processing - Transformation>Ion-Beam Processing, Synthesis & Processing - Transformation>Phase Transformation NM04.06.12 : Electroless Pt Deposition on Nickel Foam Electrodes for Hydrogen Reaction
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Nicholas Rolston

Stanford University

Stanford

United States

Composition & Microstructure - Material Type>Organometallic, Composition & Microstructure - Material Type>Polymer, Composition & Microstructure - Surface Techniques>Scanning Probe Microscopy (Spm), Composition & Microstructure - Surface Techniques>X-Ray Photoelectron Spectroscopy (Xps), Performance - Functionality>Energy Generation, Performance - Functionality>Photovoltaic, Performance - Material Form>Crystal, Properties - Chemical>Adhesion, Properties - Mechanical>Fracture EN02.08.05 : Engineering Stress in Perovskite Solar Cells to Improve Reliability, EN02.11.08 : Effect of Composition and Microstructure on the Mechanical Stability of Perovskite Solar Cells
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Dr. Jianguo Yu

Idaho National Laboratory

Idaho Falls

United States

Composition & Microstructure - Chemical Element>Actinide, Composition & Microstructure - Chemical Element>Lanthanide, Composition & Microstructure - Chemical Element>Rare-Earths, Composition & Microstructure - Features>Chemical Composition, Composition & Microstructure - Features>Crystallographic Structure, Composition & Microstructure - Features>Defects, Composition & Microstructure - Features>Dislocations, Composition & Microstructure - Features>Grain Boundaries, Composition & Microstructure - Features>Interatomic Arrangements, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Features>Morphology, Composition & Microstructure - Features>Second Phases, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Ceramic, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Compound, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Material Type>Intercalated, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Nuclear Materials, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Thin Film, Performance - Functionality>Absorbent, Performance - Functionality>Adhesive, Performance - Functionality>Barrier Layer, Performance - Functionality>Catalytic, Performance - Functionality>Dopant, Performance - Functionality>Electronic Material, Performance - Functionality>Energetic Material, Performance - Functionality>Energy Storage, Performance - Functionality>Environmentally Protective, Performance - Functionality>Ferroelectric, Performance - Functionality>Ferromagnetic, Performance - Functionality>Insulator, Performance - Functionality>Ion-Exchange Material, Performance - Functionality>Ionic Conductor, Performance - Functionality>Microelectro-Mechanical (Mems), Performance - Functionality>Microelectronics, Performance - Functionality>Optoelectronic, Performance - Functionality>Photovoltaic, Performance - Functionality>Piezoelectric, Performance - Functionality>Semiconducting, Performance - Functionality>Storage, Performance - Functionality>Structural, Performance - Functionality>Thermoelectric, Performance - Functionality>Transportation, Performance - Material Form>Amorphous, Performance - Material Form>Core/Shell, Performance - Material Form>Crystal, Performance - Material Form>Film, Performance - Material Form>Layered, Performance - Material Form>Nanostructure, Performance - Theory>Kinetics, Performance - Theory>Simulation, Properties - Chemical>Adhesion, Properties - Chemical>Adsorption, Properties - Chemical>Corrosion, Properties - Chemical>Ion-Solid Interactions, Properties - Chemical>Reactivity, Properties - Chemical>Surface Chemistry, Properties - Mechanical>Ductility, Properties - Mechanical>Elastic Properties, Properties - Mechanical>Embrittlement, Properties - Mechanical>Fatigue, Properties - Mechanical>Fracture, Properties - Mechanical>Hardness, Properties - Mechanical>Strength, Properties - Mechanical>Stress/Strain Relationship, Properties - Radiation>Radiation Effects, Properties - Thermal>Debye Temperature, Properties - Thermal>Specific Heat, Properties - Thermal>Thermal Conductivity, Properties - Thermal>Thermal Stresses, Properties - Transport>Absorption, Properties - Transport>Diffusion, Properties - Transport>Electrical Properties, Properties - Transport>Electromigration, Properties - Transport>Electron-Phonon Interactions, Properties - Transport>Electronic Structure, Properties - Transport>Metal-Insulator Transition, Properties - Transport>Thermoelectricity, Synthesis & Processing - Assembly>Cluster Assembly, Synthesis & Processing - Assembly>Self-Assembly, Synthesis & Processing - Chemical Reaction>Chemical Reaction, Synthesis & Processing - Chemical Reaction>Intercalation, Synthesis & Processing - Chemical Reaction>Oxidation, Synthesis & Processing - Chemical Reaction>Surface Reaction, Synthesis & Processing - Deposition>Atomic Layer Deposition, Synthesis & Processing - Deposition>Chemical Vapor Deposition (Cvd) (Deposition), Synthesis & Processing - Deposition>Electrodeposition, Synthesis & Processing - Deposition>Epitaxy, Synthesis & Processing - Deposition>Molecular Beam Epitaxy (Mbe), Synthesis & Processing - Deposition>Plasma Deposition, Synthesis & Processing - Growth>Crystal Growth, Synthesis & Processing - Growth>Nucleation & Growth, Synthesis & Processing - Transformation>Annealing, Synthesis & Processing - Transformation>Electron Irradiation, Synthesis & Processing - Transformation>Mechanical Alloying, Synthesis & Processing - Transformation>Neutron Irradiation, Synthesis & Processing - Transformation>Phase Equilibria, Synthesis & Processing - Transformation>Phase Transformation EN17.04.09 : Influence of Alloying Elements, Vacancy and Stress on Hydrogen Diffusion in Zr-Based Alloys via Accelerated Kinetic Monte Carlo Simulations
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Georg von Freymann

TU Kaiserslautern

Kaiserslautern

Germany

Performance - Functionality>Optical, Performance - Material Form>Nanostructure, Properties - Radiation>Optical Properties NM09.18.01 : Wavetransport in Optically Induced Materials
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Sokseiha Muy

Massachusetts Institute of Technology

Cambridge

United States

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 - Chemical Element>Mg, Composition & Microstructure - Chemical Element>Ru, Composition & Microstructure - Material Type>Ceramic, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Material Type>Intercalated, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Surface Techniques>X-Ray Photoelectron Spectroscopy (Xps), Performance - Functionality>Catalytic, Performance - Functionality>Dielectric, Performance - Functionality>Dopant, Performance - Functionality>Energy Generation, Performance - Functionality>Energy Storage, Performance - Functionality>Ionic Conductor, Performance - Functionality>Photovoltaic, Performance - Functionality>Storage, Performance - Theory>Simulation, Properties - Chemical>Ion-Solid Interactions, Properties - Transport>Dielectric Properties, Properties - Transport>Diffusion, Properties - Transport>Electrical Properties, Properties - Transport>Electromigration, Properties - Transport>Photoconductivity, Properties - Transport>Thermoelectricity EN21.03.02 : Mobility and Stability Descriptors of Lithium Ion Conductors Based on Lattice Dynamics