Inorganic Massive Batteries
ISTE Ltd and John Wiley & Sons Inc (Verlag)
978-1-84821-724-9 (ISBN)
VIALLET Virginie, University of Picardie Jules Verne. BOUCHET Renaud,? Professor, CNRS, Grenoble Alpes University. DOLLE Mickaël, Associate Professor, Department of Chemistry, University of Montreal.
Introduction vii
Chapter 1 Anatomy of an All-Solid-State Battery 1
1.1 Constituents of an all-solid battery 3
1.1.1 Nature of solid electrolytes: required qualities 3
1.1.2 Positive electrode materials 4
1.1.3 Negative electrode materials 5
1.1.4 Conductive additive 7
1.1.5 Formulation of electrodes 7
1.2 Shaping methods of all-solid batteries 8
1.2.1 Assembly by cold pressing 8
1.2.2 Design by high temperature sintering 10
Chapter 2 Solid Ionic Conductors 13
2.1 Introduction 13
2.2 Solid lithium-ion conductors 15
2.2.1 The Garnets 15
2.2.2 The NASICON AxMM′(XO4)3 Structure 17
2.2.3 The compounds LISICON and Thio-LISICON 18
2.2.4 Ion conductive glass and glass-ceramics 23
2.2.5 The Argyrodites 29
2.2.6 The complex hydrides 34
2.2.7 Phosphorus and lithium oxynitride or LiPON 36
2.2.8 Anti-perovskite lithium-rich solid electrolytes 36
2.2.9 Solid polymer electrolytes 39
2.3 Solid sodium-ion conductors 40
2.3.1 NASICON compounds 41
2.3.2 Na3PS4 42
Chapter 3 All-Solid-State Battery Technology Using Solid Sulfide Electrolytes 47
3.1 Monolithic Li-ion “all-solid-state” batteries 47
3.1.1 The first “all-solid-state” batteries 47
3.1.2 Second generation “all-solid-state” batteries 48
3.1.3 Toward High Performance Batteries 53
3.1.4 Batteries using lithium argyrodite electrolytes 58
3.1.5 Li10XP2S12 (X = Ge, Si, Sn) phase in the structure LGPS 66
3.1.6 Understanding stability at the interfaces between the electrolyte and electrode materials 81
3.1.7 Summary 84
3.2 Sodium monolithic “all-solid-state” batteries 85
3.3 “All-solid-state” Li–S batteries 91
Chapter 4 Monolithic “All-Solid-State” Batteries Using Solid Oxide Electrolytes 97
4.1 Silver “all-solid-state” battery technology 97
4.2 Li-ion “solid-state” battery technology 100
4.3 Sodium “solid-state” battery technology 108
4.3.1 Sodium-ion “solid-state” battery technology 108
4.3.2 Sodium-sulfur “all-solid-state” battery technology 116
Chapter 5 LiBH4 Electrolyte and Polymer Battery Technology 119
5.1 “All-solid-state” battery technology: LiBH4 electrolyte 119
5.2 “Solid-state” polymer battery technology 120
Chapter 6 Markets 123
6.1 Solid electrolytes 123
6.1.1 Ohara 123
6.1.2 NEI 127
6.2 Solid-state batteries 127
6.3 Conclusion 137
Conclusion 139
Bibliography 145
Index 167
Verlagsort | London |
---|---|
Sprache | englisch |
Maße | 163 x 239 mm |
Gewicht | 431 g |
Themenwelt | Naturwissenschaften ► Physik / Astronomie |
Technik ► Elektrotechnik / Energietechnik | |
ISBN-10 | 1-84821-724-2 / 1848217242 |
ISBN-13 | 978-1-84821-724-9 / 9781848217249 |
Zustand | Neuware |
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