Issue 12, 2022

Organic redox polymers as electrochemical energy materials

Abstract

Redox polymers reversibly release electrons (undergo oxidation) and gain electrons (undergo reduction). The chemical design of organic-based redox polymers is very interesting from the perspectives of studying their unique electrochemical capabilities and their use in a variety of charge-storage-device and redox-catalyst applications. This review begins by introducing the rapid electron-exchange reactions of organic redox molecules and the bistability of their oxidised and reduced forms, followed by a discussion on efficient and reversible charge propagation and storage in redox polymers containing backbones that are densely populated with redox-active sites. Employing redox polymers in rechargeable charge-storage devices, as hydrogen carriers, and for the electrochemical production of hydrogen peroxide, hydrogen, and oxygen from water is then discussed, including more-recent examples that include flexible and high-power batteries, electrode-active biomaterials, and solar-driven catalytic films. The advantages of redox polymers are also noted in terms of non-biohazardous organic materials that are derived from relatively-abundant resources, as well as their functions in environmentally-friendly applications. This review provides basic insight into the characteristics of redox polymers, and is expected to stimulate their development as sustainable materials for use in energy-related technologies.

Graphical abstract: Organic redox polymers as electrochemical energy materials

Article information

Article type
Critical Review
Submitted
15 Mär 2022
Accepted
12 Mai 2022
First published
18 Mai 2022

Green Chem., 2022,24, 4650-4679

Organic redox polymers as electrochemical energy materials

H. Nishide, Green Chem., 2022, 24, 4650 DOI: 10.1039/D2GC00981A

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