Supercapacitors have established their role as high-power density devices capable of storing energy for multiple cycles; these devices are more plentiful than batteries. This book outlines the fundamentals of charge-storage mechanisms in different configurations of supercapacitors. It describes the supercapacitor-related phenomena, state-of-the-art supercapacitor technologies, design and fabrication of electrodes, supercapacitor materials, macro-supercapacitor, planar supercapacitor, significance of electrode design, merits, demerits of current technologies, and future directions. It also details related physics, including prospective materials and electrode parameters.
Features:
- Provides understanding of the device architecture, electrode design, and pros-cons of classical supercapacitors
- Explains material design in the context of electrochemical energy storage
- Covers state-of-the-art quantum supercapacitor and technological challenges
- Describes advanced versions of supercapacitor devices, including macro-to-micro scale devices and applications at different scales
- Includes details of challenges and outlines of future designs
This book is aimed at researchers and professionals in electronics, electrochemistry, energy-storage engineering, chemical engineering, and materials science.
This book outlines the fundamentals of charge storage mechanisms in different configurations of supercapacitor. It describes related phenomena, state of art supercapacitor technologies, design/fabrication of electrodes, materials, macro/planar supercapacitor, significance of electrode design, current technologies and future directions.
