2018 MRS Spring Meeting - Profile - Yoshitaka Tateyama, Dr. Prof.

Yoshitaka Tateyama, Dr. Prof.

Position

Group Leader

Company

National Institute for Materials Science

Location

Tsukuba, JAPAN

Bio

None provided.

Meeting Program

EN01.03.02 : First-Principles Study on the Microscopic Origin of Interfacial Resistance Between Oxide Cathode and Sulfide Electrolyte in All-Solid-State Battery

4:00 PM–4:15 PM Apr 3, 2018

PCC North, 100 Level, Room 125 A

Yoshitaka Tateyama, Dr. Prof.Group Leader atNational Institute for Materials Science

Interests

Composition & Microstructure - Features Defects

,

Composition & Microstructure - Features Grain Boundaries

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Composition & Microstructure - Material Type Ceramic

,

Composition & Microstructure - Material Type Diamond

,

Composition & Microstructure - Material Type Organic

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Composition & Microstructure - Material Type Organometallic

,

Composition & Microstructure - Material Type Oxide

,

Composition & Microstructure - Material Type Polymer

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Composition & Microstructure - Material Type Water

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Performance - Computing data

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Performance - Computing simulation

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Performance - Functionality Catalytic

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Performance - Functionality Energy Storage

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Performance - Functionality Environmentally Protective

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Performance - Functionality Ionic Conductor

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Performance - Functionality Photovoltaic

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Performance - Material Form Coating

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Performance - Material Form Crystal

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Performance - Material Form Liquid

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Performance - Theory Kinetics

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Performance - Theory modeling

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Performance - Theory Simulation

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Properties - Chemical Adhesion

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Properties - Chemical Adsorption

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Properties - Chemical Corrosion

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Properties - Chemical Ion-Solid Interactions

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Properties - Chemical Reactivity

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Properties - Chemical Surface Chemistry

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Synthesis & Processing - Chemical Reaction Hydrogenation

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Synthesis & Processing - Chemical Reaction Intercalation

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Synthesis & Processing - Chemical Reaction Oxidation

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Synthesis & Processing - Chemical Reaction Photochemical

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Synthesis & Processing - Chemical Reaction Surface Reaction