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Li-ion batteries : Development and perspectives /
Thanks to improved performance and lower manufacturing costs, lithium batteries originally marketed in 1991 by SONY to power portable equipment now play a key role in the expected massive development of electric mobility.Connected to the power grid via the electrified vehicles in which they will be...
| Call Number: | Libro Electrónico |
|---|---|
| Main Authors: | , , |
| Format: | Electronic eBook |
| Language: | Inglés |
| Published: |
Les Ulis :
EDP Sciences,
[2021]
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| Series: | Current Natural Sciences
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| Subjects: | |
| Online Access: | Texto completo |
Table of Contents:
- Frontmatter
- Preface
- Contents
- CHAPTER 1. Introduction
- CHAPTER 2. Positive Electrode Materials for "Lithium-ion" Accumulators
- CHAPTER 3. Negative Electrode Materials
- CHAPTER 4. Organic Electrode Materials
- CHAPTER 5. Electrolytes and Separators
- CHAPTER 6. Na-ion Batteries: Should/Can Lithium be Replaced?
- CHAPTER 7. Metal-Sulfur Batteries
- CHAPTER 8. All Solid-State Batteries
- CHAPTER 9. Supercapacitors: From Material to Cell
- CHAPTER 10. Supercapacitors: Cells and Modules
- CHAPTER 11. Characterization of the Electrical Performance of Li-ion Cells
- CHAPTER 12. Microstructural and Physical and Chemical Characterizations of Battery Materials
- CHAPTER 13. Cell and Electrode Manufacturing Process
- CHAPTER 14. Battery System and Battery Management System (BMS)
- CHAPTER 15. Definition of the State Estimation Algorithms of a Battery System and Associated Calculation Methods
- CHAPTER 16. Standards and Safety
- CHAPTER 17. Li-ion Battery Recycling
- CHAPTER 18. Li-ion Batteries Environmental Impacts and Life Cycle Assessment (LCA)
- CHAPTER 19. Applications and Markets
- User Cost
- Conclusion
- Glossary
- The Authors