Synthesis, Properties, and Applications
Buch, Englisch, 416 Seiten, Format (B × H): 179 mm x 246 mm, Gewicht: 940 g
ISBN: 978-3-527-35529-7
Verlag: Wiley-VCH GmbH
Functional Auxiliary Materials in Batteries: Synthesis, Properties, and Applications overviews the latest research on the applications of organic functional materials and low-dimensional structural materials as functional auxiliary materials in batteries. The book introduces the properties and preparation methods of these materials, summarizes the application mechanisms and conclusions, and puts forward novel insights and prospects towards more sustainable and environmentally friendly battery technologies.
The first five chapters of this book expand around the application of organic functional materials in batteries, including separators, binders, electrolytes, and functional additives. The last two chapters of this book expand around the application of low-dimensional structural materials in batteries, including conductive agents and functional additives.
Functional Auxiliary Materials in Batteries includes information on: - Film forming, flame retardant, high voltage, and overcharge protection additives
- Adjusting factors in biopolymer materials such as molecular structure, composition, and morphology to precisely regulate and optimize battery performance
- Ionic liquids and single-ion conductors as a more secure and widely usable alternative to traditional organic electrolytes
- Self-healing materials, covering their positive effects on energy density, cost reduction, safety, and sustainability and their challenges including complexity and material compatibility
- Carbon-based materials that mitigate polysulfide shuttle effects and extend cycle life
Functional Auxiliary Materials in Batteries is an essential reference for new researchers seeking to quickly understand the progress of research in related fields. The book is also valuable for senior researchers seeking inspiration for innovation.
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Chapter 1. Application of Organic Functional Additives in Batteries
1.1 Introduction
1.2 Fluorinated Additives
1.3 Nitro Additive
1.4 Nitrile Additives
1.5 Phosphate Ester Additives
1.6 Sulfate Ester Additives
1.7 Conclusion and Outlook
Chapter 2. Application of Biopolymers in Batteries
2.1 Introduction
2.2 Overview of Biopolymers
2.3 Application of Biopolymers in Binders
2.4 Application of Biopolymers in Electrolytes
2.5 Application of Biopolymers in Separators
2.6 Application of Biopolymers in Anode Protective Layers
2.7 Application of Biopolymers in Electrolyte Additives
2.8 Conclusions and Outlook
Chapter 3. Application of Synthetic Polymers in Batteries
3.1 Introduction
3.2 Overview of Synthetic Polymers Materials
3.3 Application of Synthetic Polymers in Binders
3.4 Application of Synthetic Polymers in Electrolytes
3.5 Application of Synthetic Polymers in Battery Separators
3.6 Application of Synthetic Polymers in Anodes
3.7 Conclusions and Outlook
Chapter 4. Application of Non-Traditional Organic-Ionic Conductors in Batteries
4.1 Ionic Liquids
4.2 Application of ILs in Batteries
4.3 Single-Ion Conductive
4.4 Application of Single-Ion Conductive in Batteries
4.5 Conclusions and Outlook
Chapter 5. Application of Self-Healing Materials in Batteries
5.1. Introduction
5.2 Types of Self-Healing Materials for Battery Applications
5.3 Applications of Self-Healing Materials ins Batteries
5.4 Conclusions and Outlook
Chapter 6. Application of low Low-Dimensional Materials in Batteries
6.1 Introduction
6.2 Low-Dimensional Composite Cathode Materials
6.3 Low-Dimensional Materials in Separators
6.4 Low-Dimensional Composite Current Collectors
6.5 Low-Dimensional Composite Anode Materials
6.6 Conclusions and Outlook
Chapter 7. Applications of Porous Organic Framework Materials in Batteries
7.1 Introduction
7.2 Types of Porous Organic Framework Materials
7.3 Applications of Porous Organic Framework Materials in Batteries
7.4 Conclusion and Outlook
