Functional Auxiliary Materials in Batteries
Synthesis, Properties, and Applications
1. Edition April 2025
416 Pages, Hardcover
Handbook/Reference Book
ISBN:
978-3-527-35529-7
Wiley-VCH, Weinheim
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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
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
Wei Hu is an associate professor and doctoral supervisor at the University of Science and Technology Beijing (USTB), China. His research interests include polymer composite solid electrolyte, nanomaterials and intelligent responsive materials. He is currently on the editorial board of Battery Energy.
