Supercapacitors : Materials, Design, and Commercialization

著者名：Krishnan, Syam G. (EDT)/Pham, Hong Duc (EDT)/Dubal, Deepak P. (EDT)

Elsevier（2024/03/20発売）

• 言語：ENG
• ISBN：9780443154782
• eISBN：9780443154775

Description

Supercapacitors: Materials, Design, and Commercialization provides a comprehensive overview of the latest research trends and opportunities in supercapacitors, and particularly in terms of novel materials and electrolytes.The book will address the transformation in supercapacitive technology from double layer capacitance to battery-type capacitance, providing a clear understanding of the conceptual differences between various charge storage processes for supercapacitors, charge storage based on materials and electrolytes, and calculation for capacitance for these charge processes. Detailed chapters discuss recent developments in materials, such as carbons, chalcogenides, MXene and phosphorene, various polymer nanocomposites, and polyoxometalates for supercapacitors. This is followed by in-depth coverage of electrolytes, including the evolution of electrolytes from aqueous to water-in-salt electrolytes and their role in improving the energy density of supercapacitors. The final part of the book examines the role of artificial intelligence in the design of supercapacitors, and latest developments in translating novel supercapacitor technologies from laboratory-scale research to a commercialization.This is a valuable resource for advanced students, researchers, and scientists in the fields of energy storage, electrical engineering, materials science, and chemical engineering, as well as engineers and R&D personnel working with supercapacitors or energy storage in an industrial setting.- Brings together the latest developments in supercapacitor materials and electrolytes- Discusses cutting-edge charge storage concepts and methods for supercapacitors- Addresses the role of machine learning and the scale-up from laboratory to commercialization

Table of Contents

1. Introduction to supercapacitors, materials, and design2. Nanocarbons and Electric Double Layer Capacitors (EDLC)3. Categories of Pseudocapacitors: Intrinsic, extrinsic, and intercalation materials4. Electrochemical characterization and calculation methods of supercapacitors5. Transition metal oxides/sulfides electrode-based supercapacitors6. Conducting polymers and their composites as supercapacitor electrodes7. MOF and their derivatives for supercapacitors8. Supercapacitors based on MXene (carbides/nitrides) and black phosphorous electrodes9. Polyoxometalates (POMs) and redox active molecular clusters for supercapacitors10. Conventional Supercapacitor electrolytes: Aqueous, Organic, and Ionic11. Solid-state and gel-type supercapacitor electrolytes – polymers and cross-linkers12. Water-in-salt electrolyte – towards high voltage aqueous supercapacitors13. Deep eutectic solvents as green and cheap supercapacitor electrolytes14. Device configuration: Asymmetric vs. hybrid supercapacitors15. Machine learning and data-driven materials exploration for supercapacitors16. Translation of supercapacitor technology from laboratory scale to commercialization