This book compiles and details cutting-edge research and development of computational modeling for various electrochemical devices, including hydrogen storage, Li-ion batteries, fuel cells, and artificial photocatalysis. It covers atomistic, nanoscale, microscale, and macroscale computational modeling.
This book compiles and details cutting-edge research and development of computational modeling for various electrochemical devices, including hydrogen storage, Li-ion batteries, fuel cells, and artificial photocatalysis. It covers atomistic, nanoscale, microscale, and macroscale computational modeling.
Ryoji Asahi began working with Toyota Central R&D Laboratories, Inc., in 1987, where he was involved in the development of energy and environmental materials such as photocatalysts, thermoelectrics, photovoltaics, and Li-ion batteries. He obtained his PhD in physics from Northwestern University, IL, USA, in 1999. Currently, he is also a professor at the Toyota Technological Institute, Nagoya, Japan. Dr. Asahi has received the Technical Development Award from the Chemical Society of Japan and the Corporate Environmental Achievement Award from the American Ceramic Society for the development of visible-light-sensitized photocatalysts. His current research interests include materials design using first-principles calculations combined with machine-learning algorithms and data-driven informatics.
Inhaltsangabe
1. Computation Materials Design for Hydrogen Storage 2. Atomistic Analysis of Electrolytes: Redox Potentials and Electrochemical Reactions in Lithium-Ion Batteries 3. Electronic Structure Theory of Electrolyte/Electrode Interfaces 4. Atomistic Modeling of Photoelectric Cells for Artificial Photosynthesis 5. Large-Scale Simulations I: Methods and Applications for Li-Ion Batteries 6. Large-Scale Simulations II: Atomistic and Coarse-Grained Simulations of Polyelectrolyte Membranes 7. Phase-Field Models for Microstructural Characterization of Electrode Materials 8. Device Simulation for Li-Ion Batteries 9. Device Simulations for Fuel Cells
1. Computation Materials Design for Hydrogen Storage 2. Atomistic Analysis of Electrolytes: Redox Potentials and Electrochemical Reactions in Lithium-Ion Batteries 3. Electronic Structure Theory of Electrolyte/Electrode Interfaces 4. Atomistic Modeling of Photoelectric Cells for Artificial Photosynthesis 5. Large-Scale Simulations I: Methods and Applications for Li-Ion Batteries 6. Large-Scale Simulations II: Atomistic and Coarse-Grained Simulations of Polyelectrolyte Membranes 7. Phase-Field Models for Microstructural Characterization of Electrode Materials 8. Device Simulation for Li-Ion Batteries 9. Device Simulations for Fuel Cells
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