340 pages | 184 B/W Illus.
Conducting polymers are organic polymers which contain conjugation along the polymer backbone that conduct electricity. Conducting polymers are promising materials for energy storage applications because of their fast charge–discharge kinetics, high charge density, fast redox reaction, low-cost, ease of synthesis, tunable morphology, high power capability and excellent intrinsic conductivity compared with inorganic-based materials. Conducting Polymers-Based Energy Storage Materials surveys recent advances in conducting polymers and their composites addressing the execution of these materials as electrodes in electrochemical power sources.
This book is an invaluable guide to students, professors, scientists, and R&D industrial specialists working in the field of advanced science, nanodevices, flexible electronics, energy science.
Introduction to battery and supercapacitor applications. Synthetic strategies and significant issues for pristine conducting polymers. Synthetic approaches of conducting polymer composites.Key performance evaluating parameters in supercapacitors.Key performance evaluating parameters in battery energy storage (Li-ion, Na-ion, K-ion, Al-ion, Mg-ion batteries, etc.).Conducting polymers properties and their role in battery and supercapacitor applications.Polyaniline based supercapacitor applications. Polypyrrole based supercapacitor applications. Polythiophene based supercapacitor applications. Polyethylenedioxythiophene (PEDOT) based supercapacitor applications.Novel conducting polymers-based supercapacitor applications.Conducting polymer-based binary composites for supercapacitor applications.Conducting polymer-Carbon based binary composites for supercapacitor applications. Conducting polymer-metal based binary composites for supercapacitor applications.Conducting polymer-based ternary composites for supercapacitor applications.Polyaniline based battery applications.Polypyrrole based battery applications. Polythiophene based battery applications. Polyethylenedioxythiophene (PEDOT)-based battery applications. Novel conducting polymers-based battery applications. Conducting polymer-Carbon based binary composites for battery applications. Conducting polymer-metal based binary composites for battery applications. Conducting polymer-based ternary composites for battery applications. Conducting polymer-based hybrid-ion capacitors. Conducting polymer derived materials for supercapacitors. Conducting polymer derived materials for batteries. Conducting polymer binders for energy storage. Conducting polymer separators for energy storage. Morphology design towards conducting polymer-based energy storage. Conducting polymer-based flexible supercapacitors. Conducting polymers-based self-healable energy storage. Conducting polymer-based flexible batteries. Conducting polymer electrolytes for energy storage devices.Conducting polymer-based next-generation energy storage devices. Future prospects and challenges in conducting polymer-based energy storage.