Nazri / Julien | Solid State Batteries: Materials Design and Optimization | Buch | 978-0-7923-9460-0 | sack.de

Buch, Englisch, 629 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 1121 g

Reihe: The Springer International Series in Engineering and Computer Science

Nazri / Julien

Solid State Batteries: Materials Design and Optimization


1994
ISBN: 978-0-7923-9460-0
Verlag: Springer US

Buch, Englisch, 629 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 1121 g

Reihe: The Springer International Series in Engineering and Computer Science

ISBN: 978-0-7923-9460-0
Verlag: Springer US


The field of solid state ionics is multidisciplinary in nature. Chemists, physicists, electrochimists, and engineers all are involved in the research and development of materials, techniques, and theoretical approaches. This science is one of the great triumphs of the second part of the 20th century. For nearly a century, development of materials for solid-state ionic technology has been restricted. During the last two decades there have been remarkable advances: more materials were discovered, modem technologies were used for characterization and optimization of ionic conduction in solids, trial and error approaches were deserted for defined predictions. During the same period fundamental theories for ion conduction in solids appeared. The large explosion of solid-state ionic material science may be considered to be due to two other influences. The first aspect is related to economy and connected with energy production, storage, and utilization. There are basic problems in industrialized countries from the economical, environmental, political, and technological points of view. The possibility of storing a large amount of utilizable energy in a comparatively small volume would make a number of non-conventional intermittent energy sources of practical convenience and cost. The second aspect is related to huge increase in international relationships between researchers and exchanges of results make considerable progress between scientists; one find many institutes joined in common search programs such as the material science networks organized by EEC in the European countries.

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Research

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1. Design and optimization of solid-state batteries.- 1. Description of relations in battery operation.- 2. Quality criteria for thin-film materials.- References for chapter 1.- 2. Materials for electrolyte: Crystalline compounds.- 1. Mechanisms of transport in solid electrolytes.- 2. Anionic conductors.- 3. Cationic conductors.- 4. Composite electrolytes.- References for chapter 2.- 3. Materials for electrolyte: Fast-ion-conducting glasses.- 1. Fast-ion-conducting glasses.- 2. Conduction mechanisms in glasses.- 3. Silver-ion-conducting glasses.- 4. Sodium-ion-conducting glasses.- 5. Lithium-ion-conducting glasses.- 6. Glasses with mobile anions.- 7. Structure and optical properties of lithium-borate glasses.- 8. ac conductivity of lithium-borate glasses.- References for chapter 3.- 4. Materials for electrolyte: Thin films.- 1. Synthesis of thin-films of ionic conductors.- 2. Growth and properties of lithium-borate thin-films.- References for chapter 4.- 5. Polymer electrolytes.- 1. Structure and chemistry of polymers.- 2. Electrochemistry of polymers.- References for chapter 5.- 6. Materials for electrodes: Crystalline compounds.- 1. Introduction.- 2. Carbon-based electrodes.- 3. Inorganic chalcogenides.- 4. Inorganic oxides.- 5. Composite electrodes.- References for chapter 6.- 7. Materials for electrodes: Amorphous and thin-films.- 1. Amorphous cathodic materials.- 2. Thin-film cathodes.- References for chapter 7.- 8. Applications of solid-state ionic materials.- 1. Applications of solid-state ionics to batteries.- 2. Lithium metal-free rechargeable batteries.- 3. Microbatteries.- References for chapter 8.



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