Materials Modeling for High Performance Solid-State Batteries

Hu, Junhua/ Xu, Hongjie/ Ban, Jinjin

Blackwell Verlag GmbH（2026/09発売）

• 製本 Hardcover:ハードカバー版／ページ数 336 p.
• 言語 ENG
• 商品コード 9783527354771

Full Description

Focuses on the combination of theory and experiment to study the shut-in problem in solid-state batteries.

Contents

Chapter 1: Solid-state lithium-ion batteries: Application and challenge
1.1 Background and Introduction
1.2 Electrochemical principle
1.3 History of development
1.4 Research status and challenges
Reference

Chapter 2: Applications of high-throughput computing in lithium battery
2.1 First-principles calculation method
2.2 Density functional theory
2.3 Molecular dynamics simulation
2.4 Overview of Machine Learning
Reference

Chapter 3: Design and modification of cathode materials
3.1 Research on cathode materials
3.2 Types of common cathode materials
3.3 Preparation and properties of high voltage ternary cathode materials
3.4 The development prospect of cathode materials
Reference

Chapter 4: Application and preparation of oxide-based solid electrolyte
4.1 Development and challenges of oxide-based solid-state electrolyte
4.2 Study on the grain boundary and interface of oxide-based solid electrolyte
4.3 Research on LLTO in the field of sensors
4.5 Study on oxide-based composite electrolyte
Reference

Chapter 5: Research on the development of sulfide solid electrolyte
5.1 Application of advanced sulfide solid electrolyte
5.2 Theoretical Design of Novel sulfide solid Electrolytes
5.3 Study on the interface between sulfide solid electrolyte and electrode
5.4 Study on sulfide-based composite electrolyte
Reference

Chapter 6: Research progress of anode materials in solid-state lithium batteries
6.1 Research on anode materials
6.2 Classification and application of common anode materials
6.3 Dendrite growth mechanism
6.4 Structural regulation of lithium metal anodes
Reference

Chapter 7: Magnesium-ion batteries: Recent Progress and Challenge
7.1 Background and Introduction
7.2 Research on cathode materials
7.3 Research on anode materials
7.4 Solid-state electrolyte
7.5 Conclusion and Outlook
Reference

Chapter 8: Advanced characterization and electrochemical measurement
8.1 Characterization techniques in batteries
8.3 Basic introduction of electrochemical test methods
8.4 Other advanced analytical techniques
Reference

Chapter 9: Advanced assembly technology of full battery
9.1 Preparation method of electrode materials
9.2 Development of advanced assembly technology for solid-state batteries
9.3 Summary and Prospect
Reference