Advanced Electrochemical Materials and Devices for Clean Energy and Environment presents recent advancements, revolutionary breakthroughs, and unraveled challenges in the development of electrochemical materials and devices for energy and environmental applications. The book discusses the latest trends in synthesis, processing, fabrication, characterization, and properties of materials. In addition, it highlights novel sustainable materials such as natural polysaccharides, biochar, plant-waste, animal-waste, other waste materials as promising substitutes for use in next-generation electrochemical devices. The book also demonstrates crossroads research where the electrochemical removal of pollutants can be coupled with the electrical energy production, such as in biological fuel cells; desalination batteries/supercapacitors; and other integrated devices. This is a valuable reference for beginners, researchers, scientists, and professionals from a variety of sectors, including electrochemists, chemical engineers, environmental scientists, materials scientists, and energy researchers across academia and industry. Features cross-cutting research directions critical for meeting future energy needs and a sustainable environment - Highlights hot topics on electrochemical materials and devices in a single platform for both academics and the industrial sector - Introduces specific coverage on innovative engineered prototypes, patents approved, and commercialized devices for real applications Presents the most contemporary findings in electrochemical remediation approaches for environment protection Advanced Electrochemical Materials and Devices for Clean Energy and Environment presents the recent advancements, revolutionary breakthroughs, and unraveled challenges in the development of electrochemical materials and devices for energy and environmental applications. It aims to discuss the latest trends in synthesis, processing, fabrication, characterization, and properties of materials expecting to improve the electrochemical devices. It highlights the novel sustainable materials (such as, natural polysaccharides, biochar, plant-waste, animal-waste, other waste materials etc) as promising substitutes for use in next-generation electrochemical devices. Demonstrates the crossroads research where the electrochemical removal of pollutants can be coupled with the electrical energy production, such as in biological fuel cells; desalination batteries/supercapacitors; and other integrated devices. This book is a valuable reference for beginners, researchers, scientists, and professionals from a variety of sectors, including electrochemists, chemical engineers, environmental scientists, materials scientists, and energy researchers, across academia and industry. Dr. Zeba Khanam is currently working as an Assistant Researcher at College of Materials Science & Engineering, Hunan University, China. She earned her PhD in Environmental Science (minor in Chemistry) from G.B. Pant University of Agriculture & Technology, Pantnagar, India. Her research centers on the energy-environment nexus, addressing critical challenges in energy storage and water pollution for society's well-being. Her work spans the development of advanced flexible electrodes, polymer electrolytes, anticorrosive coatings, and water quality assessment. So far, Dr. Khanam has published 23 articles in peer-reviewed international journals, 8 book chapters, 5 popular articles in national science magazines, and a book as the lead editor. In addition, she has presented her work at numerous national/international events, including the most prestigious, Faraday Discussion-173 at RSC, London. She is a recipient of national/international doctoral and post-doctoral fellowships and RSC travel grants. Also, she is honored with the Junior Scientist-2020 award by the National Environmental Science Academy (NESA), India. She is serving as a reviewer for reputed journals of Springer, Elsevier, Wiley, and T&F, and holds membership of scientific societies namely, RSC-London, NESA-India, and ISCA-India. Beyond her scientific endeavors, she engages in corporate and social activities, underscoring her well-rounded professional and academic development. Dr. Divesh Narayan Srivastava currently holds the position of Chief Scientist at CSIR-CSMCRI, India, and Professor at AcSIR. He graduated from Banaras Hindu University, Varanasi (India), in 1999, and subsequently spent a few years at Bar-Ilan University, Israel, and the Indian Institute of Technology-Bombay, India, as a postdoctoral fellow. His current research interests include electrochemical sensors and electrocatalysis. He has authored 131 research papers, 4 book chapters, edited 1 book, and holds 6 patents to his credit. Among his notable contributions are the development of technologies such as the 'Plastic Chip Electrode,' 'Tailored Potentiostat,' and 'Direct Seawater Electrolyzer.' The Plastic Chip Electrode has been adopted