Rechargeable Organic Batteries

This book focuses on the next generation sustainable organic electrodes and provides a guideline for the future development of these materials.

Autorentext

Yongzhu Fu is a Professor in the College of Chemistry at Zhengzhou University in the People's Republic of China. He received his Ph.D. degree in Materials Science and Engineering from the University of Texas at Austin (USA) in 2007. He was an Assistant Professor at Indiana University-Purdue University, Indianapolis, in the United States before he joined Zhengzhou University in 2017. His research is focused on electrochemical energy materials.

Xiang Li is an Associate Professor in the College of Chemistry at Zhengzhou University in the People's Republic of China. He received his Ph.D. degree in University of Tsukuba (Japan) in 2019. His research is focused on positive electrode materials for Li/Na-ion batteries and electrolyte design related to electrochemical energy storage.

Shuai Tang is an Associate Professor in the College of Chemistry at Zhengzhou University in the People's Republic of China. He received his Ph.D. in Physical Chemistry from Xiamen University in 2019 and bachelor degree in metallurgy engineering from Central South University in 2013. His research is focused on interfacial electrochemistry and energy materials related to electrochemical energy storage, especially on the organic electrode materials and sodium batteries.

Wei Guo is a Professor in the College of Chemistry at the Zhengzhou University in the People's Republic of China. She received her Ph.D. degree in Inorganic Chemistry from Nankai University in 2014. Her research is focused on nanostructured and hybrid materials for rechargeable batteries.

Klappentext

A must-have reference on sustainable organic energy storage systems Organic electrode materials have the potential to overcome the intrinsic limitations of transition metal oxides. As promising alternatives to transition metal oxide-based batteries, organic materials are low-cost and have comparable energy density to lithium-ion and sodium-ion batteries. Rechargeable Organic Batteries is an up-to-date reference and guide to the next generation of sustainable organic electrodes. Focused exclusively on organic electrode materials for rechargeable batteries, this unique volume provides comprehensive coverage of the structures, advantages, properties, reaction mechanisms, and performance of various types of organic cathodes. In-depth chapters examine carbonyl-, organosulfur-, radical-, and organometallic complexes, as well as polymer-based active materials for electrochemical energy storage (EES) technologies. Throughout the book, possible application cases and potential challenges are discussed in detail.

• Presents advanced characterization methods for verifying redox mechanisms of organic materials
• Examines recent advances in carbonyl-based small-molecule cathode materials battery systems including lithium-ion, sodium-ion, and aqueous zinc-ion batteries
• Introduces organosulfide-inorganic composite cathodes with high electrical conductivity and fast reaction kinetics
• Outlines research progress on radical electrode materials, polymer-based organic cathode materials, and the development of all-organic batteries

• Summarizes the synthesis processes, redox mechanisms, and electrochemical performance of different kinds of organic anode materials for metal-ion batteries Featuring a general introduction to organic batteries, including a discussion of their necessity and advantages, Rechargeable Organic Batteries is essential reading for electrochemists, materials scientists, organic chemists, physical chemists, and solid-state chemists working in the field.

  Inhalt

  1. Necessity and advantages of developing rechargeable organic batteries
  2. Redox mechanisms and characterization methods of organic electrode materials
  3. Carbonyl-based Organic Cathodes
  4. Sulfur-containing Organic Cathodes
  5. Radical-based organic cathodes
  6. Organometallic complexes-based electrodes
  7. Polymer-based organic cathodes
  8. Organic anode
     9: All-Organic Batteries
  9. Outlook