Liquid Electrolyte Chemistry For Lithium Metal Batteries - Design, Mechanisms, Strategies, リチウム金属電池のための液体電解質化学 - 設計、メカニズム、戦略, 9783527836383, 978-3-527-83638-3【電子書籍 / 1ユーザー】
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Description
Considered by many as the most-promising next-generation batteries, lithium metal batteries have grown in popularity due to their low potential and high capacity. Crucial to the development of this technology, electrolytes can provide efficient electrode electrolyte interfaces, assuring the interconversion of chemical and electrical energy. The quality of electrode electrolyte interphase, in turn, directly governs the performance of batteries.
In Liquid Electrolyte Chemistry, provides a comprehensive look at the current understanding and status of research regarding liquid electrolytes for lithium metal batteries. Offering an introduction to lithium-based batteries from development history to their working mechanisms, the book further offers a glimpse at modification strategies of anode electrolyte interphases and cathode electrolytic interphases. More, by discussing the high-voltage electrolytes from their solvents?organic solvents and ionic liquids?to electrolyte additives, the text provides a thorough understanding on liquid electrolyte chemistry in the remit of lithium metal batteries.
Liquid Electrolyte Chemistry for Lithium Metal Batteries readers will also find:
- A unique focus that reviews the development of liquid electrolytes for lithium metal batteries
- State-of-the-art progress and development of electrolytes for lithium metal batteries
- Consideration of safety, focusing the design principles of flame retardant and non-flammable electrolytes
- Principles and progress on low temperature and high temperature electrolytes
Liquid Electrolyte Chemistry for Lithium Metal Batteries is a useful reference for electrochemists, solid state chemists, inorganic chemists, physical chemists, surface chemists, materials scientists, and the libraries that supply them.
Contents:
1 Lithium Metal Batteries
1.1 History
1.2 Types
1.3 Introductive Electrolytes
1.4 Prospects
2 Electrode?Electrolyte Interphase
2.1 Introduction
2.2 Solid Electrolyte Interphase
2.3 Cathode Electrolyte Interphase
3 Safe Electrolytes
3.1 Introduction
3.2 Flame-Retardant Mechanism
3.3 Flame-Retardant Electrolytes
3.4 Nonflammable Electrolytes
3.5 Prospects
4 High-Voltage Electrolytes
4.1 Introduction
4.2 The General Implications of High-Voltage Electrochemical Operation
4.3 The Electrolyte Engineering for Various High-Voltage Cathodes
4.4 Conclusions
5 Extreme Temperature Electrolytes
5.1 Low-Temperature Electrolytes
5.2 High-Temperature Electrolytes
5.3 Prospective
6 High-Concentration Electrolytes
6.1 High-Concentration Electrolytes
6.2 Local High-concentration Electrolytes
6.3 Prospects
7 Theoretical Basis for Electrolyte and Electrode Study
7.1 Redox Potential
7.2 Solvation Structure
7.3 Lithium Diffusion
7.4 Conclusion
8 Outlook