Nonconjugated Redox-Active Polymers: Electron Transfer Mechanisms, Energy Storage, and Chemical Versatility. Academic Article uri icon

abstract

  • The storage of electric energy in a safe and environmentally friendly way is of ever-growing importance for a modern, technology-based society. With future pressures predicted for batteries that contain strategic metals, there is increasing interest in metal-free electrode materials. Among candidate materials, nonconjugated redox-active polymers (NC-RAPs) have advantages in terms of cost-effectiveness, good processability, unique electrochemical properties, and precise tuning for different battery chemistries. Here, we review the current state of the art regarding the mechanisms of redox kinetics, molecular design, synthesis, and application of NC-RAPs in electrochemical energy storage and conversion. Different redox chemistries are compared, including polyquinones, polyimides, polyketones, sulfur-containing polymers, radical-containing polymers, polyphenylamines, polyphenazines, polyphenothiazines, polyphenoxazines, and polyviologens. We close with cell design principles considering electrolyte optimization and cell configuration. Finally, we point to fundamental and applied areas of future promise for designer NC-RAPs.

published proceedings

  • Annu Rev Chem Biomol Eng

altmetric score

  • 3.45

author list (cited authors)

  • Ma, T., Easley, A. D., Thakur, R. M., Mohanty, K. T., Wang, C., & Lutkenhaus, J. L.

citation count

  • 0

complete list of authors

  • Ma, Ting||Easley, Alexandra D||Thakur, Ratul Mitra||Mohanty, Khirabdhi T||Wang, Chen||Lutkenhaus, Jodie L

publication date

  • June 2023