Sustainable Materials in Supercapacitors by Ramadoss, Ananthakumar; Deshmukh, Kalim; Mustansar Hussain, Chaudhery;

Hosszú leírás:

Sustainable Materials in Supercapacitors: New Developments in Green Energy Storage investigates green materials-based supercapacitors, considering not only their fundamental characteristics but also implications of their use at industrial scales. The book focuses on the special synthesis techniques, applications, and commercial challenges associated with green supercapacitors. The book sets out the components and performance-governing parameters of green supercapacitors and identifies the challenges and limitations involved in their implementation. It is split into three parts: the first part extensively covers the fundamentals of green supercapacitors, the second part looks at applications, and the final part presents case studies and considers future developments.

The book will be of value to postgraduate students and research scholars, as well as industry professionals working in sustainable energy, materials science, nanomaterials, and the electronic and automobile industries.

• Examines the current state-of-the-art, recent progress, and new challenges associated with the development of green electroactive materials
• Considers the performance of biopolymers, bioactive and biodegradable materials, and nature-inspired and bio-derived materials and composites in energy storage devices
• Outlines the current challenges and opportunities for commercial applications of green supercapacitors

Tartalomjegyzék:

PART I: Fundamentals of Green Supercapacitors
1. Introduction to Green Supercapacitors: Current Research Trends, Prospects and Challenges
2. Supercapacitors: Classification, Working Principle, Design Considerations, Novel Electrode and Electrolyte Materials
3. True Performance Metrics of Supercapacitor
4. Synthesis Approaches of Green Materials for Supercapacitors: An Overview
5. Electroactive Materials Derived from Green Sources for Supercapacitors: An Overview
6. Agro, Municipal and Forest Waste-Derived Active Materials for Supercapacitors
7. Industrial Waste-derived Active Materials for Supercapacitors
8. Animal Waste and Sea Waste Derived Materials for Supercapacitors
9. Bio-Inspired Electroactive Materials for Supercapacitors
10. Biopolymer-Based Electroactive Materials for Electrochemical Supercapacitors
11. Bioactive and Biodegradable Materials for Supercapacitors
12. Green Nanocomposites/Hybrids for Supercapacitors
13. Natural-Derived Electrolytes for Supercapacitors

PART II: Applications of Green Supercapacitors
14. Wearable and Portable Electronic Applications
15. Green Supercapacitors in Transportation Systems
16. Emerging Applications of Green Supercapacitors

PART III: Case Studies on Green Supercapacitors
17. Sustainable Supercapacitors Based on Bio-Derived Materials
18. Economic Feasibility, Safety Regulations, Environment and Health Impact, Ethical and Social
19. Conclusions and Future Perspectives