Understand the development guidelines required for industrialization in the future based on the technological evolution of all-solid-state battery development.
【Target Audience】 - Those considering all-solid-state battery-related businesses as applications for their own technologies or materials. - Individuals involved in battery material design and system development. - Those who want to understand the technological trends and historical developments of all-solid-state batteries. - Those who have just started research and development on all-solid-state batteries or have some experience in the field. 【Key Points of This Document】 - Can liquid systems keep up with the expansion of EVs? This section organizes the limitations of existing LIBs in terms of safety, cost, thermal resistance, and characteristics while explaining the challenges and countermeasures for the mass production and practical application of all-solid-state batteries. - In addition to electrode fabrication technologies aimed at achieving high capacity, it also introduces the fabrication technologies of highly useful new electrolyte materials. - Characteristics of bulk-type all-solid-state batteries (safety, energy density, lifespan, temperature characteristics, output): What are the requirements for the anticipated materials and manufacturing processes? - Factors contributing to interfacial resistance and reduction strategies. It provides specific examples, including design examples of interfacial structures. - Lifespan characteristics and evaluation methods for lithium diffusion from the precipitation mechanism of lithium metal. It also introduces computational methods to identify the emergence of lithium resistance phases at the active material/electrolyte interface and the effects of interfacial resistance reduction.
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Publication Date: November 27, 2018 Price: 48,000 yen + tax Format: B5 size, 178 pages ISBN: 978-4-86502-161-5 [List of Contributors (Honorifics omitted)] - Yuichi Munakata (Tokyo Metropolitan University) - Hirotoshi Yamada (Nagasaki University) - Naoaki Kuwata (Tohoku University) - Hideki Sakai (Toho Titanium Co., Ltd.) - Reona Miyazaki (Nagoya Institute of Technology) - Masahiro Tatsumi (Osaka Prefecture University) - Atsushi Sakuta (Osaka Prefecture University) - Akitoshi Hayashi (Osaka Prefecture University) - Shuichi Sugawara (Izumi Chemical Research Co., Ltd.) - Kikuko Hayamizu (University of Tsukuba) - Yukihiro Okuno (Fujifilm Corporation) - Jun Haruyama (National Institute for Materials Science) - Keitaro Soyama (National Institute for Materials Science) - Yoshitaka Tateyama (National Institute for Materials Science) - Shoichi Matsuda (National Institute for Materials Science) - Shuji Nakanishi (Osaka University) - Hitoshi Naito (Japan Aerospace Exploration Agency)
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Chapter 1: Basic Knowledge of All-Solid-State Batteries Chapter 2: Manufacturing Process Technologies and Challenges and Solutions from an Industrialization Perspective Section 1: Manufacturing Process Technologies and Know-How for All-Solid-State Batteries Item 1: Bulk-Type All-Solid-State Batteries Item 2: Interface Design Technologies and Evaluation in Oxide-Based Solid Electrolytes Item 3: Fabrication of Thin-Film All-Solid-State Batteries Using PLD Method Section 2: Technical Requirements for the Production of Constituent Materials/Additives Item 1: Production of Oxide-Based Electrolyte Materials Item 2: Current Status of Li+ Conductor Development Based on Li-Free Compounds Item 3: Fabrication Methods for Electrodes Aiming for High Capacity Section 3: Challenges and Countermeasures that Become Barriers to Mass Production and Industrialization Chapter 3: Characterization Methods for All-Solid-State Battery Materials Section 1: Lithium Diffusion and Ion Conductivity in Inorganic Solid Electrolytes Observed by PFG-NMR Method Section 2: Analysis of All-Solid-State Battery Interfaces by First-Principles Molecular Dynamics Calculations Section 3: Evaluation of Charge Transfer Resistance at the Solid Electrolyte/Metal Lithium Interface by AC Impedance Method Section 4: Evaluation of Lifespan and Temperature Characteristics of All-Solid-State Batteries
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