Flexible Supercapacitors

FLEXIBLE SUPERCAPACITORS

Comprehensive coverage of the latest advancements in flexible supercapacitors

In Flexible Supercapacitors: Materials and Applications, a team of distinguished researchers deliver a comprehensive and insightful exploration of the foundational principles and real-world applications of flexible supercapacitors. This edited volume includes contributions from leading scientists working in the field of flexible supercapacitors.

The book systematically summarizes the most recent research in the area, and covers fundamental concepts of electrode materials and devices, including on-chip microsupercapacitors and fiber supercapacitors. The latest progress and advancements in stretchable supercapacitors and healable supercapacitors are also discussed, as are problems and challenges commonly encountered in the development of flexible supercapacitors. The book concludes with suggestions and fresh perspectives on future research in this rapidly developing field.

Flexible Supercapacitors: Materials and Applications also offers:

• A thorough introduction to the fundamentals of supercapacitors, including their materials and devices

• Comprehensive explorations of flexible fiber supercapacitors and two-dimensional materials for flexible supercapacitors

• In-depth examinations of flexible supercapacitors with metal oxides-based electrodes and flexible on-chip microsupercapacitors

• Practical discussions of stretchable and healable supercapacitors, as well as patterned nanostructured electrodes

Perfect for researchers in the fields of materials science, physics, and electrical engineering, Flexible Supercapacitors: Materials and Applications is also an ideal reference for developers interested in supercapacitor design, materials, and devices.

Auteur

Guozhen Shen, PhD, is Professor at the Institute of Semiconductors, Chinese Academy of Sciences, Beijing. His research is focused on flexible and printable electronics.

Zheng Lou, PhD, is Assistant Professor at the Institute of Semiconductors, Chinese Academy of Sciences, Beijing. His research focuses on printable and flexible electronics, like transistors, photodetectors, sensors, and energy storage devices.

Di Chen, PhD, is Professor at the University of Science and Technology in Beijing. Her research is focused on the design of nanoscale materials for energy applications.

Résumé
FLEXIBLE SUPERCAPACITORS Comprehensive coverage of the latest advancements in flexible supercapacitors In Flexible Supercapacitors: Materials and Applications, a team of distinguished researchers deliver a comprehensive and insightful exploration of the foundational principles and real-world applications of flexible supercapacitors. This edited volume includes contributions from leading scientists working in the field of flexible supercapacitors. The book systematically summarizes the most recent research in the area, and covers fundamental concepts of electrode materials and devices, including on-chip microsupercapacitors and fiber supercapacitors. The latest progress and advancements in stretchable supercapacitors and healable supercapacitors are also discussed, as are problems and challenges commonly encountered in the development of flexible supercapacitors. The book concludes with suggestions and fresh perspectives on future research in this rapidly developing field. Flexible Supercapacitors: Materials and Applications also offers:

• A thorough introduction to the fundamentals of supercapacitors, including their materials and devices
• Comprehensive explorations of flexible fiber supercapacitors and two-dimensional materials for flexible supercapacitors
• In-depth examinations of flexible supercapacitors with metal oxides-based electrodes and flexible on-chip microsupercapacitors
• Practical discussions of stretchable and healable supercapacitors, as well as patterned nanostructured electrodes Perfect for researchers in the fields of materials science, physics, and electrical engineering, Flexible Supercapacitors: Materials and Applications is also an ideal reference for developers interested in supercapacitor design, materials, and devices.

Contenu
Preface

1 Flexible Asymmetric Supercapacitors: Design, Progress and Challenges
*Dun Lin, Xiyue Zhang, and Xihong Lu*

1.1 Introduction

1.2 Configurations of AFSCs Device

1.3 Progress of Flexible AFSCs

1.3.1 Sandwich-type AFSCs

1.3.2 Fiber-type ASCs

1.4 Summary

2 Stretchable Supercapacitors
*La Li and Guozhen Shen*

2.1 Overview of Stretchable Supercapacitors

2.2 Fabrication of Stretchable Supercapacitors

2.2.1 Structures of Stretchable Fiber-shaped SCs

2.2.2 Planar Stretchable SCs

2.2.3 3D Stretchable SCs

2.3 Multifunctional Supercapacitor

2.3.1 Compressible SCs

2.3.2 Self-healable SCs

2.3.3 Stretchable Integrated System

2.3.4 Perspective

3 Fiber-shaped Supercapacitors
*Mengmeng Hu, Qingjiang Liu, Yao Liu, Jiaqi Wang, Jie Liu, Panpan Wang, Hua Wang, and Yan Huang*

Introduction

3.1 Structure of FSSCs

3.2 Electrolyte

3.3 Electrode

3.3.1 Carbon-based Materials

3.3.2 Conducting Polymers

3.3.3 Metal-based Materials

3.3.4 Mxenes

3.3.5 Metal Organic Frameworks (MOFs)

3.3.6 Polyoxometalates (POMs)

3.3.7. Black Phosphorus (BP)

3.4 Electrode Design of FSSCs

3.4.1 Metal-fiber Supported Electrode

3.4.2 Carbon Materials Based Fiber Supported Electrode

3.5 Functionalized FSSCs

3.5.1 Self-healable FSSCs

3.5.2 Stretchable FSSCs

3.5.3 Electrochromic FSSCs

3.5.4 Shape-memory FSSCs

3.5.5 Photodetectable FSSCs

3.6 Conclusion

4 Flexible Fiber-shaped Supercapacitors: Fabrication, Design, and Applications
*Muhammad S. Javed, Peng Sun, Muhammad Imran, and Wenjie Mai*

4.1 Introduction to Fiber-shaped Supercapacitors

4.2 Emerging Techniques for the Fabrication of Fiber-shaped Electrodes

4.2.1 Wet spinning Method

4.2.2 Spray/Cast-coating Method

4.2.3 Hydrothermal Method

4.3 Structures and Design/Configuration of Fiver-shaped Electrodes

4.3.1 Parallel-fiber Electrodes

4.3.2 Twisted-fiber Electrodes

4.3.3 Coaxial-fiber Electrodes

4.3.4 Rolled-fiber Electrodes

4.4 Materials for Fiber-shaped Supercapacitors

4.4.1 Carbon-based Materials for FFSC

4.4.2 Metal Oxides and their Composite-based Materials for FFSC

4.5 Electrolytes for Fiber-shaped Supercapacitors

4.6 Performance evaluation Metrics for Fiber-shaped Supercapacitors

4.7 Applications

4.8 Conclusion and Future Prospectus

5 Flexible Supercapacitors Based on Ternary Metal Oxide (Sulfide, Selenide) Nanostructures
*Qiufan Wang, Daohong Zhang, and Guozhen Shen*

5.1 Introduction

5.1.1 Background of Electrochemical Capacitors

5.1.2 Performance Evaluation of SCs

5.2 Ternary Metal Oxide

5.2.1 1D Ternary Metal Oxide Nanostructural Electrodes

5.2.2 2D Ternary Metal Oxide Nanostructural Electrodes

5.2.3 3D Ternary Oxide Electrodes

5.2.4 Cire-shell Ternary Metal Oxide Composite Electrodes

5.3 Metal Sulfide Electrodes

5.3.1 1D Metal Sulfide Electrodes

5.3.2 2D Metal Sulfide Electrodes

5.3.3 3D Metal Sulfide Electrodes

5.3.4 Metal Sulfide Composite Electrodes

5.4 Metal Selenide Electrodes

5.4.1 1D Metal Selenide Electrodes

5.4.2 2D Metal Selenide Electrodes

5.4.3 3D Metal Selenide Electrodes

5.5 Fiber-shaped SCs

5.6 Summary and Perspectives

6 Transition Metal oxide-based Electrode Materials for Supercapacitors
*Xiang Wu*

6.1 Introduction

6.2 Co3O4 Electrode Materials 6.3 NiO Electrod...