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- Herausgeber: John Wiley & Sons
- Kategorie: Wissenschaft und neue Technologien
- Sprache: Englisch
Since the 90s, the Li-ion batteries are the most commonly used energy storage systems. The demand for performance and safety is constantly growing, current commercial batteries based liquid electrolytes or gels may not be able to meet the needs of emerging applications such as for electric and hybrid vehicles and renewable energy storage , and it is therefore necessary to develop advanced storage systems with characteristics such that the highest density of energy technology, long life, low cost of production, little or no maintenance and high safety of use. Batteries "all solid" are a technology of choice to meet these requirements. In this technology, the electrolyte separator between the two electrodes is no longer a liquid medium but a solid.
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Seitenzahl: 282
Veröffentlichungsjahr: 2018
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Table of Contents
Cover
Title
Copyright
Introduction
I.1. Energy issues
I.2. Lithium Ion cells
I.3. Importance of all-solid-state batteries
I.4. Challenges of all-solid batteries
I.5. “Thin film” batteries and 2D micro-batteries
1 Anatomy of an All-Solid-State Battery
1.1. Constituents of an all-solid battery
1.2. Shaping methods of all-solid batteries
2 Solid Ionic Conductors
2.1. Introduction
2.2. Solid lithium-ion conductors
2.3. Solid sodium-ion conductors
3 All-Solid-State Battery Technology Using Solid Sulfide Electrolytes
3.1. Monolithic Li-ion “all-solid-state” batteries
3.2. Sodium monolithic “all-solid-state” batteries
3.3. “All-solid-state” Li–S batteries
4 Monolithic “All-Solid-State” Batteries Using Solid Oxide Electrolytes
4.1. Silver “all-solid-state” battery technology
4.2. Li-ion “solid-state” battery technology
4.3. Sodium “solid-state” battery technology
5 LiBH
4
Electrolyte and Polymer Battery Technology
5.1. “All-solid-state” battery technology: LiBH
4
electrolyte
5.2. “Solid-state” polymer battery technology
6 Markets
6.1. Solid electrolytes
6.2. Solid-state batteries
6.3 Conclusion
Conclusion
Bibliography
Index
End User License Agreement
List of Tables
2 Solid Ionic Conductors
Table 2.1. Overview of ionic conductivities of Li
10±x
MP
2
Ch
12
compounds [ONG 13]
Table 2.2. Polymer-based solid electrolytes used in all-solid-state batteries
3 All-Solid-State Battery Technology Using Solid Sulfide Electrolytes
Table 3.1. Examples of negative electrode materials studied in “all-solid-state” batteries
Guide
Cover
Table of Contents
Begin Reading
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