Book (Practical) Chemistry Frontier of Solid Materials Development (CSJ current review : 49) / The Chemical Society of Japan

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Chemistry Solid compounds with unique functions such as mechanical properties, electrical properties, magnetism, and catalytic activity are extremely useful as structural materials, electronic materials, and energy materials. The structures and functions of solid compounds that can be synthesized by reactions under thermal equilibrium conditions are limited, but if you look at compounds with metastable compositions and structures using non-thermal equilibrium reactions, there is a vast unexplored area.
Contents
PartI Basic Concepts and Research Sites
PartI Tetsuya Hasegawa of Chemistry of Inorganic Solid Materials (Emeritus Professor, University of Tokyo)
PartII Research Sites
(1) Synthesis
PartII Research Sites
(1) Synthesis of Metastable Nanomaterials by Element Substitution
PartII Research Sites
(1) Synthesis of Metastable Nanomaterials by Element Substitution
PartII Research Frontage
(1) Synthesis of Metastable Nanomaterials by Element Substitution
PartII Research Frontage
(1) Synthesis of Metastable Nanomaterials by Element Substitution
PartII Research FrontMechanism Shinichi Ogoe (Graduate School of Science, University of Tokyo)
Chapter 12 Development of High Entropy Compounds and Prospects for Superconductive and Thermoelectric materials Kei Mizuguchi (Graduate School of Science, Toritsu-daigaku University of Tokyo)
Chapter 13 Electronic states of multi-element nanomaterials and their applications as catalysts Hiroshi Kitagawa (Graduate School of Science, Kyoto University)
Chapter 14 Non-Equilibrium Synthesis and metastable of Battery Materials Akira Miura (Graduate School of Engineering, Hokkaido University)
Chapter 15 Analysis of Intercalation Reactions in Lithium Ion Battery Materials by Material Simulation Masanobu Nakayama (Graduate School of Science, Nagoya Institute of Technology)
Chapter 16 Development of New Thermoelectric Materials Using Metastable Phases, Atsuko Kosuge (Graduate School of Science, Osaka University of Technology)
Chapter 16 Development of Heterogeneous Ammonia Synthesis Catalysts, Tohwa Hara (Graduate School of Science, Tokyo Institute of Technology)
Chapter 18 Development of Electrochemical Catalytic Materials Using High-Pressure Synthesis, Ikuya Yamada (Graduate School of Engineering, 舟窪 Shimakawa Teranishi Matsuishi Shinshu University Ritsumeikan University