Name & Company Information Location Interests Events
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Ahmed Elbanna

University of Illinois at Urbana-Champaign

CM05.03.03 : Localization and Instability in Sheared Granular Materials—Role of Pore Fluids and Non-Monotonic Rate Dependent Rheology
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Ahyoung Kim

University of Illinois at Urbana-Champaign

PhD candidate

Urbana

United States

Composition & Microstructure - Chemical Element>Au, Composition & Microstructure - Features>Macromolecular Structure, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Features>Morphology, Composition & Microstructure - Features>Second Phases, Composition & Microstructure - Material Type>Biomaterial, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Polymer, Performance - Material Form>Colloid, Performance - Material Form>Core/Shell, Performance - Material Form>Nanostructure, Performance - Theory>Kinetics, Properties - Chemical>Surface Chemistry, Synthesis & Processing - Assembly>Biomimetic (Assembly), Synthesis & Processing - Assembly>Bonding, Synthesis & Processing - Assembly>Cluster Assembly, Synthesis & Processing - Assembly>Self-Assembly NM05.12.05 : Phase Transition Dynamics of 3D Lattices Formed by Anisometric Plates
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Aikifa Raza

Khalifa University of Science and Tehcnology

Abu Dhabi

United Arab Emirates

MA04.01.04 : Micro-Stereolithography 3D Printing of Materials with Controlled Optical and Wetting Properties, EN11.09.05 : Enhancing Visible Light Photocatalysis with Hydrogenated Titanium Dioxide
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Aiping Chen

Los Alamos National Laboratory

Scientist

Los Alamos

United States

Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Thin Film, Performance - Functionality>Piezoelectric, Performance - Material Form>Nanostructure, Properties - Magnetic>Magnetic Properties, Properties - Magnetic>Magnetoresistance (Magnetic), Properties - Transport>Dielectric Properties, Properties - Transport>Electrical Properties, Properties - Transport>Ferroelectricity, Properties - Transport>Hall Effect, Properties - Transport>Magnetoresistance (Transport), Properties - Transport>Metal-Insulator Transition EN07.05.06 : Growth and Characterization of UOx Thin Films by Pulsed Laser Deposition
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Aitzol Garcia-Etxarri

Donostia International Physics Center

San Sebastian

Spain

Composition & Microstructure - Material Type>Nanoscale NM09.18.03 : Optical Vortices and Polarization Möbius Strips on All-Dielectric Optical Antennas
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Aiying Zhang

Beijing Institute of Technology

NM05.11.38 : Preparation of Modified Polyacrylonitrile Nanofiber Membranes and Application as an Adsorbent
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Aizitiaili Abulikemu

National Institute of Advanced Industrial Science and Technology (AIST)

Osaka

Japan

EP03.06.08 : Solid-State NIR-to-Yellow Triplet-Triplet Annihilation Photon Upconversion
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Ajay Singh

Los Alamos National Laboratory

Los Alamos

United States

Composition & Microstructure - Chemical Element>Ag, Composition & Microstructure - Chemical Element>Au, Composition & Microstructure - Chemical Element>Cd, Composition & Microstructure - Chemical Element>Ce, Composition & Microstructure - Chemical Element>Cu, Composition & Microstructure - Chemical Element>Ga, Composition & Microstructure - Chemical Element>Ge, Composition & Microstructure - Chemical Element>In, Composition & Microstructure - Chemical Element>Sb, Composition & Microstructure - Chemical Element>Se, Composition & Microstructure - Chemical Element>Sn, Composition & Microstructure - Chemical Element>Te, Composition & Microstructure - Chemical Element>Zn, Composition & Microstructure - Features>Chemical Composition, Composition & Microstructure - Features>Defects, Composition & Microstructure - Features>Grain Boundaries, Composition & Microstructure - Features>Grain Size, Composition & Microstructure - Features>Morphology, Composition & Microstructure - Features>Second Phases, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Ii-Vi, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Near Surface Techniques>Scanning Transmission Electron Microscopy (Stem), 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>Energetic Material, Performance - Functionality>Energy Generation, Performance - Functionality>Energy Storage, Performance - Functionality>Semiconducting, Properties - Chemical>Surface Chemistry, Properties - Transport>Electrical Properties, Synthesis & Processing - Assembly>Cluster Assembly, Synthesis & Processing - Assembly>Self-Assembly, Synthesis & Processing - Growth>Nucleation & Growth, Synthesis & Processing - Transformation>Annealing, Synthesis & Processing - Transformation>Phase Transformation, Synthesis & Processing - Transformation>Sintering NM09.01.08 : Colloidal Doped Plasmonic Metal Oxide Nanocrystals—Precise Control Over Shape, Size, Dopant Type and Their Radial Distribution, CM06.05.02 : From Inside Out—Revealing the True Nature of the Buried Interface of Thick Core-Shell Nanocrystal, EN19.08.05 : Giant PbS/CdS/CdS Quantum Dots—Shell Thickness Dependent Single Dot Stability and Device Performance, EP02.09.24 : Interface and Defect Engineering of Heterostructured Semiconductor Quantum Dots, NM05.09.03 : Revealing the Enigmatic Interfacial Layer of Core/shell Quantum Dots
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Ajay Subramanian

Rice University

Researcher

Houston

United States

MA04.11.01 : Laminated Object Manufacturing of 3D Printed Laser-Induced Graphene Foams
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Akane Samizo

Tokyo University of Science

8217704@Ed.Tus.Ac.Jp

Tokyo

Japan

EN19.14.01 : A New P-Type Oxide Semiconductor with Tunable Band Gap, Sn2(Nb2-xTax)O7
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Akash Singh

Indian Institute of Science Bangalore

Project Student

Bangalore

India

EN02.14.04 : Highly Crystalline Methylammonium Tin Iodide Perovskite Films Using Post-Deposition Methylamine Vapor Annealing for Improved Grain Size
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Akbar Bagri

Johns Hopkins University

Postdoctoral Fellow

Newark

United States

Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Bulk Techniques>X-Ray Tomography, Composition & Microstructure - Features>Grain Boundaries, Composition & Microstructure - Features>Grain Size, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Features>Morphology, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Material Type>Graphene, Composition & Microstructure - Material Type>Metal, Composition & Microstructure - Material Type>Organometallic, Composition & Microstructure - Material Type>Thin Film, Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Non-technical - Education>Academic, Performance - Functionality>Energy Storage, Performance - Functionality>Semiconducting, Performance - Functionality>Storage, Performance - Functionality>Structural, Performance - Functionality>Transparent Conductor, Performance - Material Form>Crystal, Performance - Material Form>Layered, Performance - Material Form>Nanostructure, Performance - Theory>Kinetics, Performance - Theory>Simulation, Properties - Chemical>Adsorption, Properties - Chemical>Corrosion, Properties - Chemical>Ion-Solid Interactions, 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>Internal Friction, Properties - Mechanical>Strength, Properties - Mechanical>Stress/Strain Relationship, Properties - Mechanical>Superplasticity, Properties - Mechanical>Toughness, Properties - Mechanical>Viscoelasticity, Properties - Thermal>Debye Temperature, Properties - Thermal>Specific Heat, Properties - Thermal>Thermal Conductivity, Properties - Thermal>Thermal Stresses, Properties - Thermal>Vapor Pressure, Properties - Transport>Diffusion, Properties - Transport>Electron-Phonon Interactions, Properties - Transport>Electronic Structure, Properties - Transport>Piezoresponse, Properties - Transport>Thermoelectricity, Synthesis & Processing - Chemical Reaction>Chemical Vapor Deposition (Cvd) (Chemical Reaction), Synthesis & Processing - Chemical Reaction>Combinatorial Synthesis, Synthesis & Processing - Chemical Reaction>Hydrogenation, Synthesis & Processing - Chemical Reaction>Oxidation, Synthesis & Processing - Deposition>Atomic Layer Deposition, Synthesis & Processing - Deposition>Chemical Vapor Deposition (Cvd) (Deposition), Synthesis & Processing - Deposition>Epitaxy, Synthesis & Processing - Deposition>Metalorganic Deposition, Synthesis & Processing - Growth>Crystal Growth, Synthesis & Processing - Growth>Flux Growth, Synthesis & Processing - Growth>Nucleation & Growth, Synthesis & Processing - Transformation>Annealing CM03.03.11 : Synchrotron Investigations of Grain Boundary Character and Intergranular Fracture in Hydrogen-Charged Ni-Base Alloy 725, CM05.04.09 : Crystal Plasticity Modeling of 3D Virtual Representative Twinned Microstructures of Ni-Based Superalloys
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Akifumi Yamamura

The University of Tokyo

Kashiwa

Japan

Composition & Microstructure - Material Type>Organic, Performance - Functionality>Electronic Material, Performance - Functionality>Transportation, Performance - Material Form>Crystal, Synthesis & Processing - Assembly>Self-Assembly, Synthesis & Processing - Chemical Reaction>Solution Deposition MA02.08.04 : Band-Like Transport in Two-Dimensional Monolayer Organic Field-Effect Transistors
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Akihiro Takezawa

Hiroshima University

Associate professor

Higashihiroshima

Japan

Composition & Microstructure - Chemical Element>Al, Composition & Microstructure - Chemical Element>Fe, Composition & Microstructure - Chemical Element>Ti, Composition & Microstructure - Features>Additives, Composition & Microstructure - Features>Porosity, Composition & Microstructure - Material Type>Alloy, Non-technical - Education>Academic, Performance - Functionality>Structural, Performance - Material Form>Foam, Performance - Theory>Simulation, Properties - Mechanical>Elastic Properties, Properties - Mechanical>Fracture, Properties - Mechanical>Strength, Properties - Mechanical>Stress/Strain Relationship, Properties - Thermal>Thermal Stresses MA04.12.06 : Porous Composite with Arbitrary Planer Thermal Expansion by Multi-Material Topology Optimization and Additive Manufacturing
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Akira Kouchi

Hokkaido University

Professor

Sapporo

Japan

CM02.01.02 : In Situ Observation of Amorphous Ices by Ultrahigh Vacuum TEM
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Akira Otomo

National Institute of Information and Communications Technology

Executive Researcher

Kobe

Japan

Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Features>Macromolecular Structure, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Material Type>Organic, Composition & Microstructure - Material Type>Polymer, Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Performance - Functionality>Devices, Performance - Functionality>Dielectric, Performance - Functionality>Electronic Material, Performance - Functionality>Optical, Performance - Functionality>Optoelectronic, Performance - Functionality>Sensor, Performance - Material Form>Amorphous, Performance - Material Form>Film, Performance - Material Form>Nanostructure, Properties - Magnetic>Magnetooptic, Properties - Radiation>Optical Properties, Properties - Radiation>Photoemission, Synthesis & Processing - Chemical Reaction>Photochemical, Synthesis & Processing - Chemical Reaction>Surface Reaction, Synthesis & Processing - Deposition>Atomic Layer Deposition, Synthesis & Processing - Deposition>Chemical Vapor Deposition (Cvd) (Deposition), Synthesis & Processing - Deposition>Ink-Jet Printing, Synthesis & Processing - Deposition>Lithography (Deposition), Synthesis & Processing - Deposition>Physical Vapor Deposition (Pvd), Synthesis & Processing - Deposition>Plasma-Enhanced Cvd (Pecvd) (Deposition), Synthesis & Processing - Deposition>Screen Printing, Synthesis & Processing - Deposition>Spray Deposition, Synthesis & Processing - Deposition>Sputtering, Synthesis & Processing - Removal>Laser Ablation, Synthesis & Processing - Removal>Lithography (Removal), Synthesis & Processing - Transformation>Annealing, Synthesis & Processing - Transformation>Casting, Synthesis & Processing - Transformation>Electron Irradiation, Synthesis & Processing - Transformation>Polymerization EP03.05.01 : Development of Electro-Optic Polymers and Waveguides for Optical and Terahertz Wave Communication Devices
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Akira Sakai

Osaka University

Professor

Toyonaka

Japan

Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Chemical Element>Al, Composition & Microstructure - Chemical Element>Ga, Composition & Microstructure - Chemical Element>Ge, Composition & Microstructure - Chemical Element>In, Composition & Microstructure - Chemical Element>Pt, Composition & Microstructure - Chemical Element>Si, Composition & Microstructure - Chemical Element>Sr, Composition & Microstructure - Chemical Element>Ti, Composition & Microstructure - Features>Crystallographic Structure, Composition & Microstructure - Features>Defects, Composition & Microstructure - Features>Dislocations, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Ceramic, Composition & Microstructure - Material Type>Compound, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Material Type>Elemental, Composition & Microstructure - Material Type>Iii-V, Composition & Microstructure - Material Type>Metal, Composition & Microstructure - Material Type>Nitride, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Thin Film, Composition & Microstructure - Near Surface Techniques>Transmission Electron Microscopy (Tem), Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Composition & Microstructure - Surface Techniques>Scanning Probe Microscopy (Spm), Performance - Functionality>Devices, Performance - Functionality>Dielectric, Performance - Functionality>Dopant, Performance - Functionality>Electronic Material, Performance - Functionality>Insulator, Performance - Functionality>Ionic Conductor, Performance - Functionality>Laser, Performance - Functionality>Memory, Performance - Functionality>Microelectronics, Performance - Functionality>Optoelectronic, Performance - Functionality>Piezoelectric, Performance - Functionality>Semiconducting, Performance - Functionality>Storage, Performance - Functionality>Structural, Performance - Material Form>Crystal, Performance - Material Form>Film, Performance - Material Form>Nanostructure, Performance - Theory>Kinetics, Performance - Theory>Simulation, Properties - Chemical>Surface Chemistry, Properties - Mechanical>Stress/Strain Relationship, Properties - Radiation>Radiation Effects, Properties - Thermal>Thermal Stresses, Properties - Transport>Dielectric Properties, Properties - Transport>Diffusion, Properties - Transport>Electrical Properties, Properties - Transport>Electronic Structure, Properties - Transport>Metal-Insulator Transition, Properties - Transport>Piezoresponse, Synthesis & Processing - Assembly>Self-Assembly, Synthesis & Processing - Chemical Reaction>Oxidation, Synthesis & Processing - Deposition>Chemical Vapor Deposition (Cvd) (Deposition), Synthesis & Processing - Deposition>Epitaxy, Synthesis & Processing - Deposition>Liquid-Phase Epitaxy (Lpe), Synthesis & Processing - Deposition>Molecular Beam Epitaxy (Mbe), Synthesis & Processing - Deposition>Physical Vapor Deposition (Pvd), Synthesis & Processing - Deposition>Vapor Phase Epitaxy (Vpe), Synthesis & Processing - Growth>Crystal Growth, Synthesis & Processing - Growth>Nucleation & Growth, Synthesis & Processing - Removal>Laser Ablation, Synthesis & Processing - Transformation>Annealing EP06.09.03 : Demonstrative Operation of Four-Terminal Memristive Devices by Controlling Oxygen Vacancy Distribution in TiO2-x Single Crystals
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Akira Toriumi

The University of Tokyo

Tokyo

Japan

Composition & Microstructure - Bulk Techniques>Deep Level Transient Spectroscopy (Dlts), Composition & Microstructure - Chemical Element>Ge, Composition & Microstructure - Chemical Element>Hf, Composition & Microstructure - Chemical Element>Lanthanide, Composition & Microstructure - Chemical Element>Si, Composition & Microstructure - Features>Defects, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Features>Second Phases, Composition & Microstructure - Material Type>Graphene, Composition & Microstructure - Material Type>Intercalated, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Thin Film, Composition & Microstructure - Near Surface Techniques>Infrared (Ir) Spectroscopy, Composition & Microstructure - Near Surface Techniques>X-Ray Reflectivity, Composition & Microstructure - Surface Techniques>Mass Spectroscopy, Composition & Microstructure - Surface Techniques>Secondary Ion Mass Spectroscopy (Sims), Non-technical - Education>Academic, Performance - Functionality>Dielectric, Performance - Functionality>Electronic Material, Performance - Functionality>Ferroelectric, Performance - Functionality>Ferromagnetic, Performance - Functionality>Insulator, Performance - Functionality>Semiconducting, Performance - Material Form>Amorphous, Performance - Material Form>Layered, Performance - Material Form>Nanostructure, Performance - Theory>Kinetics, Properties - Chemical>Ion-Solid Interactions, Properties - Chemical>Reactivity, Properties - Mechanical>Stress/Strain Relationship, Properties - Radiation>Photoemission, Properties - Thermal>Vapor Pressure, Properties - Transport>Dielectric Properties, Properties - Transport>Electrical Properties, Properties - Transport>Electron-Phonon Interactions, Properties - Transport>Ferroelectricity, Properties - Transport>Hall Effect, Properties - Transport>Piezoresponse, Synthesis & Processing - Chemical Reaction>Laser-Induced Reaction, Synthesis & Processing - Chemical Reaction>Oxidation EP01.05.01 : Kinetic Route of Ferroelectric Phase Evolution in Doped HfO2
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Akitoshi Hayashi

Osaka Prefecture University

Osaka

Japan

Performance - Functionality>Ionic Conductor, Performance - Material Form>Amorphous EN06.01.02 : Design of Positive Electrode Layers for All-Solid-State Rechargeable Batteries with High Energy Density, EN01.03.01 : Formation of Favorable Solid-Solid Interfaces Using Ductile Electrolytes and Electrodes for All-Solid-State Lithium Batteries
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Akshay Modi

Indian Institute of Technology Bombay

Graduate Teaching Assistant

Mumbai

India

Composition & Microstructure - Bulk Techniques>Differential Thermal Analysis (Dta), Composition & Microstructure - Bulk Techniques>Gas Chromatography, Composition & Microstructure - Bulk Techniques>Porosimetry, Composition & Microstructure - Bulk Techniques>Spectroscopy, Composition & Microstructure - Bulk Techniques>Thermogravimetric Analysis (Tga), Composition & Microstructure - Bulk Techniques>X-Ray Diffraction (Xrd), Composition & Microstructure - Chemical Element>Ag, Composition & Microstructure - Chemical Element>Au, Composition & Microstructure - Chemical Element>Ba, Composition & Microstructure - Chemical Element>Ca, Composition & Microstructure - Chemical Element>Cd, Composition & Microstructure - Chemical Element>Cl, Composition & Microstructure - Chemical Element>Co, Composition & Microstructure - Chemical Element>Cr, Composition & Microstructure - Chemical Element>Cu, Composition & Microstructure - Chemical Element>He, Composition & Microstructure - Chemical Element>Mg, Composition & Microstructure - Chemical Element>Ni, Composition & Microstructure - Chemical Element>Pb, Composition & Microstructure - Chemical Element>Zn, Composition & Microstructure - Features>Additives, Composition & Microstructure - Features>Defects, Composition & Microstructure - Features>Interatomic Arrangements, Composition & Microstructure - Features>Macromolecular Structure, Composition & Microstructure - Features>Microstructure, Composition & Microstructure - Features>Molecular Weight, Composition & Microstructure - Features>Morphology, Composition & Microstructure - Features>Porosity, Composition & Microstructure - Material Type>Alloy, Composition & Microstructure - Material Type>Biological, Composition & Microstructure - Material Type>Biomaterial, Composition & Microstructure - Material Type>Blend, Composition & Microstructure - Material Type>Bone, Composition & Microstructure - Material Type>Carbon Dioxide, Composition & Microstructure - Material Type>Ceramic, Composition & Microstructure - Material Type>Coal, Composition & Microstructure - Material Type>Composite, Composition & Microstructure - Material Type>Compound, Composition & Microstructure - Material Type>Crystalline, Composition & Microstructure - Material Type>Diamond, Composition & Microstructure - Material Type>Elemental, Composition & Microstructure - Material Type>Graphene, Composition & Microstructure - Material Type>Methane, Composition & Microstructure - Material Type>Nanoscale, Composition & Microstructure - Material Type>Nitride, Composition & Microstructure - Material Type>Organic, Composition & Microstructure - Material Type>Oxide, Composition & Microstructure - Material Type>Polymer, Composition & Microstructure - Material Type>Thin Film, Composition & Microstructure - Material Type>Water, Composition & Microstructure - Surface Techniques>Scanning Electron Microscopy (Sem), Composition & Microstructure - Surface Techniques>X-Ray Photoelectron Spectroscopy (Xps), Non-technical - Commerce>Commerce, Non-technical - Education>Academic, Non-technical - Government Interactions>Government Policy And Funding, Performance - Functionality>Absorbent, Performance - Functionality>Biomedical, Performance - Functionality>Biomedical/Biological, Performance - Functionality>Catalytic, Performance - Functionality>Devices, Performance - Functionality>Dispersant, Performance - Functionality>Dopant, Performance - Functionality>Efficiency, Performance - Functionality>Electronic Material, Performance - Functionality>Energy Generation, Performance - Functionality>Energy Storage, Performance - Functionality>Environmentally Protective, Performance - Functionality>Ion-Exchange Material, Performance - Functionality>Waste Management, Performance - Material Form>Biofilm, Performance - Material Form>Coating, Performance - Material Form>Colloid, Performance - Material Form>Core/Shell, Performance - Material Form>Fiber, Performance - Material Form>Film, Performance - Material Form>Layered, Performance - Material Form>Nanostructure, Performance - Material Form>Powder, Performance - Material Form>Zeolite, Properties - Chemical>Adhesion, Properties - Chemical>Adsorption, Properties - Chemical>Corrosion, Properties - Chemical>Reactivity, Properties - Chemical>Surface Chemistry, Properties - Mechanical>Ductility, Properties - Mechanical>Elastic Properties, Properties - Mechanical>Hardness, Properties - Mechanical>Strength, Properties - Mechanical>Stress/Strain Relationship, Properties - Mechanical>Toughness, Properties - Transport>Absorption, Properties - Transport>Diffusion, Synthesis & Processing - Assembly>Solvent Casting, Synthesis & Processing - Chemical Reaction>Biological Synthesis (Chemical Reaction), Synthesis & Processing - Chemical Reaction>Biomimetic (Chemical Reaction), Synthesis & Processing - Chemical Reaction>Carbonization, Synthesis & Processing - Chemical Reaction>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 - Chemical Reaction>Electrochemical Synthesis, Synthesis & Processing - Chemical Reaction>Environmentally Benign, Synthesis & Processing - Chemical Reaction>Hydrogenation, Synthesis & Processing - Chemical Reaction>Hydrothermal, Synthesis & Processing - Chemical Reaction>Oxidation, Synthesis & Processing - Chemical Reaction>Photochemical, Synthesis & Processing - Chemical Reaction>Pyrolysis, Synthesis & Processing - Chemical Reaction>Solution Deposition, Synthesis & Processing - Deposition>Chemical Vapor Deposition (Cvd) (Deposition), Synthesis & Processing - Deposition>Spray Deposition, Synthesis & Processing - Growth>Crystal Growth, Synthesis & Processing - Growth>Nucleation & Growth, Synthesis & Processing - Removal>Purification, Synthesis & Processing - Transformation>Extrusion, Synthesis & Processing - Transformation>Phase Equilibria, Synthesis & Processing - Transformation>Phase Transformation, Synthesis & Processing - Transformation>Polymerization EN04.02.04 : Polyethersulfone-Carbon Nanotubes Hollow Fiber Mixed Matrix Membranes—Development and Characterization for Enhanced Gas Separation Performance, SM05.03.10 : Development and Characterization of Extracellular Matrix-Coated Hollow Fiber Mixed Matrix Membranes for Bioartificial Kidney Application, SM05.05.27 : High Flux Nanocomposite Hollow Fiber Membrane for Hemodialysis