Internformat: Li-ion batteries :

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...

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Hauptverfasser:	Bloch, Didier (VerfasserIn), Martinet, Sébastien (VerfasserIn), Priem, Thierry (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Les Ulis : EDP Sciences, [2021]
Schriftenreihe:	Current Natural Sciences
Schlagworte:	Electric batteries. Lithium cells. Lithium ion batteries. Batteries. Environment. Physics. Piles électriques. Piles au lithium. Batteries au lithium-ion. batteries (electrical) SCIENCE / Physics / General. Electric batteries Lithium cells Lithium ion batteries
Online-Zugang:	Volltext
Zusammenfassung:	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 onboard, lithium batteries will also be used as a massive buffer for renewable energy, as well as network support tools (erasure of peak hours, frequency regulation, etc.), allowing, beyond their primary function (ensuring the mobility of the vehicle), to increase their usefulness.These developments will profoundly transform our societies, and will allow not only to significantly reduce CO2 emissions and the consumption of fossil fuels (oil, gas, coal), but also, if they are conducted and coordinated effectively, contribute to economic growth.The purpose of this book is to provide the reader an overview of lithium battery technologies, current initiatives around the world, and some perspectives for the future.Researchers at the CEA and the CNRS, the authors of this book have, all, an expertise based on several years of experience in the development of lithium battery systems and post-lithium-ion systems, on all the elements of the value chain, from the design and synthesis of electrode materials to the integration into the vehicle.
Beschreibung:	1 online resource (432 p.).
ISBN:	2759825671 9782759825677

Internformat

MARC


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520			\|a 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 onboard, lithium batteries will also be used as a massive buffer for renewable energy, as well as network support tools (erasure of peak hours, frequency regulation, etc.), allowing, beyond their primary function (ensuring the mobility of the vehicle), to increase their usefulness.These developments will profoundly transform our societies, and will allow not only to significantly reduce CO2 emissions and the consumption of fossil fuels (oil, gas, coal), but also, if they are conducted and coordinated effectively, contribute to economic growth.The purpose of this book is to provide the reader an overview of lithium battery technologies, current initiatives around the world, and some perspectives for the future.Researchers at the CEA and the CNRS, the authors of this book have, all, an expertise based on several years of experience in the development of lithium battery systems and post-lithium-ion systems, on all the elements of the value chain, from the design and synthesis of electrode materials to the integration into the vehicle.
546			\|a In English.
588			\|a Description based on online resource; title from digital title page (viewed on January 13, 2023).
505	0	0	\|t Frontmatter -- \|t Preface -- \|t Contents -- \|t CHAPTER 1. Introduction -- \|t CHAPTER 2. Positive Electrode Materials for "Lithium-ion" Accumulators -- \|t CHAPTER 3. Negative Electrode Materials -- \|t CHAPTER 4. Organic Electrode Materials -- \|t CHAPTER 5. Electrolytes and Separators -- \|t CHAPTER 6. Na-ion Batteries: Should/Can Lithium be Replaced? -- \|t CHAPTER 7. Metal-Sulfur Batteries -- \|t CHAPTER 8. All Solid-State Batteries -- \|t CHAPTER 9. Supercapacitors: From Material to Cell -- \|t CHAPTER 10. Supercapacitors: Cells and Modules -- \|t CHAPTER 11. Characterization of the Electrical Performance of Li-ion Cells -- \|t CHAPTER 12. Microstructural and Physical and Chemical Characterizations of Battery Materials -- \|t CHAPTER 13. Cell and Electrode Manufacturing Process -- \|t CHAPTER 14. Battery System and Battery Management System (BMS) -- \|t CHAPTER 15. Definition of the State Estimation Algorithms of a Battery System and Associated Calculation Methods -- \|t CHAPTER 16. Standards and Safety -- \|t CHAPTER 17. Li-ion Battery Recycling -- \|t CHAPTER 18. Li-ion Batteries Environmental Impacts and Life Cycle Assessment (LCA) -- \|t CHAPTER 19. Applications and Markets -- User Cost -- \|t Conclusion -- \|t Glossary -- \|t The Authors
650		0	\|a Electric batteries. \|0 http://id.loc.gov/authorities/subjects/sh85041588
650		0	\|a Lithium cells. \|0 http://id.loc.gov/authorities/subjects/sh85077582
650		0	\|a Lithium ion batteries. \|0 http://id.loc.gov/authorities/subjects/sh2011000687
650		4	\|a Batteries.
650		4	\|a Environment.
650		4	\|a Physics.
650		6	\|a Piles électriques.
650		6	\|a Piles au lithium.
650		6	\|a Batteries au lithium-ion.
650		7	\|a batteries (electrical) \|2 aat
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650		7	\|a Electric batteries \|2 fast
650		7	\|a Lithium cells \|2 fast
650		7	\|a Lithium ion batteries \|2 fast
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Datensatz im Suchindex

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author	Bloch, Didier Martinet, Sébastien Priem, Thierry
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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
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spelling	Li-ion batteries : Development and perspectives / coordinated by Didier Bloch, Sébastien Martinet, Thierry Priem, Christian Ngô . Les Ulis : EDP Sciences, [2021] 1 online resource (432 p.). text txt rdacontent computer c rdamedia online resource cr rdacarrier Current Natural Sciences 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 onboard, lithium batteries will also be used as a massive buffer for renewable energy, as well as network support tools (erasure of peak hours, frequency regulation, etc.), allowing, beyond their primary function (ensuring the mobility of the vehicle), to increase their usefulness.These developments will profoundly transform our societies, and will allow not only to significantly reduce CO2 emissions and the consumption of fossil fuels (oil, gas, coal), but also, if they are conducted and coordinated effectively, contribute to economic growth.The purpose of this book is to provide the reader an overview of lithium battery technologies, current initiatives around the world, and some perspectives for the future.Researchers at the CEA and the CNRS, the authors of this book have, all, an expertise based on several years of experience in the development of lithium battery systems and post-lithium-ion systems, on all the elements of the value chain, from the design and synthesis of electrode materials to the integration into the vehicle. In English. Description based on online resource; title from digital title page (viewed on January 13, 2023). 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 Electric batteries. http://id.loc.gov/authorities/subjects/sh85041588 Lithium cells. http://id.loc.gov/authorities/subjects/sh85077582 Lithium ion batteries. http://id.loc.gov/authorities/subjects/sh2011000687 Batteries. Environment. Physics. Piles électriques. Piles au lithium. Batteries au lithium-ion. batteries (electrical) aat SCIENCE / Physics / General. bisacsh Electric batteries fast Lithium cells fast Lithium ion batteries fast Bloch, Didier, coordinator. aut http://id.loc.gov/vocabulary/relators/aut Martinet, Sébastien, author. aut http://id.loc.gov/vocabulary/relators/aut Priem, Thierry, author. aut http://id.loc.gov/vocabulary/relators/aut Print version: 9782759825554 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3555275 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3555275 Volltext
spellingShingle	Bloch, Didier Martinet, Sébastien Priem, Thierry Li-ion batteries : Development and perspectives / 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 Electric batteries. http://id.loc.gov/authorities/subjects/sh85041588 Lithium cells. http://id.loc.gov/authorities/subjects/sh85077582 Lithium ion batteries. http://id.loc.gov/authorities/subjects/sh2011000687 Batteries. Environment. Physics. Piles électriques. Piles au lithium. Batteries au lithium-ion. batteries (electrical) aat SCIENCE / Physics / General. bisacsh Electric batteries fast Lithium cells fast Lithium ion batteries fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85041588 http://id.loc.gov/authorities/subjects/sh85077582 http://id.loc.gov/authorities/subjects/sh2011000687
title	Li-ion batteries : Development and perspectives /
title_alt	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
title_auth	Li-ion batteries : Development and perspectives /
title_exact_search	Li-ion batteries : Development and perspectives /
title_full	Li-ion batteries : Development and perspectives / coordinated by Didier Bloch, Sébastien Martinet, Thierry Priem, Christian Ngô .
title_fullStr	Li-ion batteries : Development and perspectives / coordinated by Didier Bloch, Sébastien Martinet, Thierry Priem, Christian Ngô .
title_full_unstemmed	Li-ion batteries : Development and perspectives / coordinated by Didier Bloch, Sébastien Martinet, Thierry Priem, Christian Ngô .
title_short	Li-ion batteries :
title_sort	li ion batteries development and perspectives
title_sub	Development and perspectives /
topic	Electric batteries. http://id.loc.gov/authorities/subjects/sh85041588 Lithium cells. http://id.loc.gov/authorities/subjects/sh85077582 Lithium ion batteries. http://id.loc.gov/authorities/subjects/sh2011000687 Batteries. Environment. Physics. Piles électriques. Piles au lithium. Batteries au lithium-ion. batteries (electrical) aat SCIENCE / Physics / General. bisacsh Electric batteries fast Lithium cells fast Lithium ion batteries fast
topic_facet	Electric batteries. Lithium cells. Lithium ion batteries. Batteries. Environment. Physics. Piles électriques. Piles au lithium. Batteries au lithium-ion. batteries (electrical) SCIENCE / Physics / General. Electric batteries Lithium cells Lithium ion batteries
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3555275
work_keys_str_mv	AT blochdidier liionbatteriesdevelopmentandperspectives AT martinetsebastien liionbatteriesdevelopmentandperspectives AT priemthierry liionbatteriesdevelopmentandperspectives

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