Conducting Polymers-Based Energy Storage Materials: 1st Edition (Hardback) book cover

Conducting Polymers-Based Energy Storage Materials

1st Edition

Edited by Dr Inamuddin, Rajender Boddula, Mohammad Faraz Ahmer, Abdullah Mohamed Asiri

CRC Press

340 pages | 184 B/W Illus.

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Hardback: 9780367193942
pub: 2020-01-13
Available for pre-order. Item will ship after 13th January 2020

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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.

Key Features:

  • Provides an overview on the conducting polymer material properties, fundamentals and their role in energy storage applications.
  • Deliberates cutting-edge energy storage technology based on synthetic metals (conducting polymers)
  • Covers current applications in next-generation energy storage devices.
  • Explores the new aspects of conducting polymers with processing, tunable properties, nanostructures and engineering strategies of conducting polymers for energy storage.
  • Presents up-to-date coverage of a large, rapidly growing and complex conducting polymer literature on all-types 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.

Table of Contents

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.

About the Editors

Dr. Inamuddin is currently working as Assistant Professor in the Chemistry Department, Faculty of Science, King Abdulaziz University, Jeddah, Saudi Arabia. He is a permanent faculty member (Assistant Professor) at the Department of Applied Chemistry, Aligarh Muslim University, Aligarh, India. He obtained Master of Science degree in Organic Chemistry from Chaudhary Charan Singh (CCS) University, Meerut, India, in 2002. He received his Master of Philosophy and Doctor of Philosophy degrees in Applied Chemistry from Aligarh Muslim University (AMU) in 2004 and 2007, respectively. He has extensive research experience in multidisciplinary fields of Analytical Chemistry, Materials Chemistry, and Electrochemistry and, more specifically, Renewable Energy and Environment. He has worked on different research projects as project fellow and senior research fellow funded by University Grants Commission (UGC), Government of India, and Council of Scientific and Industrial Research (CSIR), Government of India. He has received Fast Track Young Scientist Award from the Department of Science and Technology, India, to work in the area of bending actuators and artificial muscles. He has completed four major research projects sanctioned by University Grant Commission, Department of Science and Technology, Council of Scientific and Industrial Research, and Council of Science and Technology, India. He has published 86 research articles in international journals of repute and seventeen book chapters in knowledge-based book editions published by renowned international publishers. He has published nineteen edited books with Springer, United Kingdom, Nova Science Publishers, Inc. U.S.A., CRC Press Taylor & Francis Asia Pacific, Trans Tech Publications Ltd., Switzerland and Materials Science Forum, U.S.A. He is the member of various editorial boards of the journals and also serving as associate editor for a journal Environmental Chemistry Letter, Springer Nature. He has attended as well as chaired sessions in various international and national conferences. He has worked as a Postdoctoral Fellow, leading a research team at the Creative Research Initiative Center for Bio-Artificial Muscle, Hanyang University, South Korea, in the field of renewable energy, especially biofuel cells. He has also worked as a Postdoctoral Fellow at the Center of Research Excellence in Renewable Energy, King Fahd University of Petroleum and Minerals, Saudi Arabia, in the field of polymer electrolyte membrane fuel cells and computational fluid dynamics of polymer electrolyte membrane fuel cells. He is a life member of the Journal of the Indian Chemical Society. His research interest includes ion exchange materials, a sensor for heavy metal ions, biofuel cells, supercapacitors and bending actuators.

Dr Rajender Boddula, is currently working as CAS-PIFI Fellow in the CAS Key Laboratory of Nanosystems and Hierarchical Fabrication, National Center for Nanoscience and Technology, Beijing, China. He obtained Master of Science degree in Organic Chemistry from Kakatiya University, Warangal, India, in 2008. He received his Doctor of Philosophy degree in Chemistry with the highest honours in 2014 for the work entitled "Synthesis and Characterization of Polyanilines for Supercapacitor and Catalytic Applications" at the CSIR-Indian Institute of Chemical Technology (CSIR-IICT) and Kakatiya University (India). Before joining National Center for Nanoscience and Technology (NCNST) as CAS-PIFI research fellow, China, worked as senior researcher associate and Postdoc at the Aligarh Muslim University (AMU, India) and National Tsing-Hua University (NTHU, Taiwan) respectively in the fields of bio-fuel and CO2 reduction applications. His academic honors include University Grants Commission National Fellowship and many merit scholarships, study-abroad fellowships from Australian Endeavour Research fellowship and CAS-PIFI. He has published many scientific articles in international peer-reviewed journals and has authored nine book chapters, and also serving as editorial board member and referee for reputed international peer-reviewed journals. His specialized areas of energy conversion and storage technologies, which include nanomaterials, graphene, polymer composites, heterogeneous catalysis, photoelectrocatalytic water splitting, biofuel cell, and supercapacitor applications.

Dr. Mohammad Faraz Ahmer is presently working as Assistant Professor in the Department of Electrical Engineering, Mewat Engineering College, Nuh Haryana, India, since 2012 after working as Guest Faculty in University Polytechnic, Aligarh Muslim University Aligarh, India, during 2009-2011. He completed M.Tech. (2009) and Bachelor of Engineering (2007) degrees in Electrical Engineering from Aligarh Muslim University, Aligarh in the first division. He obtained a Ph.D. degree in 2016 on his thesis entitled "Studies on Electrochemical Capacitor Electrodes". He has published six research papers in reputed scientific journals. His scientific interests include electrospun nano-composites and supercapacitors. He has presented his work at several conferences. He is actively engaged in searching of new methodologies involving the development of organic composite materials for energy storage systems.

Prof. Abdullah M. Asiri is the Head of the Chemistry Department at King Abdulaziz University since October 2009 and he is the founder and the Director of the Center of Excellence for Advanced Materials Research (CEAMR) since 2010 till date. He is the Professor of Organic Photochemistry. He graduated from King Abdulaziz University (KAU) with B.Sc. in Chemistry in 1990 and a Ph.D. from University of Wales, College of Cardiff, U.K. in 1995. His research interest covers color chemistry, synthesis of novel photochromic and thermochromic systems, synthesis of novel coloring matters and dyeing of textiles, materials chemistry, nanochemistry and nanotechnology, polymers and plastics. Prof. Asiri is the principal supervisors of more than 20 M.Sc. and six Ph.D. theses. He is the main author of ten books of different chemistry disciplines. Prof. Asiri is the Editor-in-Chief of King Abdulaziz University Journal of Science. A major achievement of Prof. Asiri is the discovery of tribochromic compounds, a new class of compounds which change from slightly or colorless to deep colored when subjected to small pressure or when grind. This discovery was introduced to the scientific community as a new terminology published by IUPAC in 2000. This discovery was awarded a patent from European Patent office and from UK patent. Prof. Asiri involved in many committees at the KAU level and on the national level. He took a major role in the advanced materials committee working for KACST to identify the national plan for science and technology in 2007. Prof. Asiri played a major role in advancing the chemistry education and research in KAU. He has been awarded the best researchers from KAU for the past five years. He also awarded the Young Scientist Award from the Saudi Chemical Society in 2009 and also the first prize for the distinction in science from the Saudi Chemical Society in 2012. He also received a recognition certificate from the American Chemical Society (Gulf region Chapter) for the advancement of chemical science in the Kingdome. He received a Scopus certificate for the most publishing scientist in Saudi Arabia in chemistry in 2008. He is also a member of the editorial board of various journals of international repute. He is the Vice- President of Saudi Chemical Society (Western Province Branch). He holds four USA patents, more than one thousand publications in international journals, several book chapters and edited books.

Subject Categories

BISAC Subject Codes/Headings:
SCIENCE / Chemistry / General
SCIENCE / Chemistry / Industrial & Technical