Polymerization increasing the capacitive charge storage for better rate performance: A case study of electrodes in aqueous sodium‐ion capacitors

Polymerization increasing the capacitive charge storage for better rate performance: A case study of electrodes in aqueous sodium‐ion capacitors

Abstract Organic molecules and polymers have been widely used in aqueous sodium‐ion capacitors. However, the difference in the reaction kinetics of the electroactive polymer and its monomer has been overlooked. In this study, a comparative study of the sodium‐ion storage performance and the reaction...

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Bibliographic Details
Main Authors: Chengjun Gu, Zhihao Liu, Xiang Gao, Qi Zhang, Zhanhui Zhang, Zhitian Liu, Chengliang Wang
Format: Article
Language:English
Published: Wiley 2022-10-01
Series:Battery Energy
Subjects:
aqueous sodium‐ion capacitors
polyimide
polymer cathode
rate performance
reaction kinetics
Online Access:https://doi.org/10.1002/bte2.20220031
Description
Summary:Abstract Organic molecules and polymers have been widely used in aqueous sodium‐ion capacitors. However, the difference in the reaction kinetics of the electroactive polymer and its monomer has been overlooked. In this study, a comparative study of the sodium‐ion storage performance and the reaction kinetics is performed. The poly(perylene diimides) which is named EDP exhibits decreased crystallinity, smaller particle size with a rough surface, higher specific capacitance, lower reduction potential, better cycling stability, and rate performance, compared with its monomer 3,4,9,10‐perylenetetracarboxylic dianhydride. The reaction kinetics study proves that the EDP shows faster sodium‐ion diffusion and more capacitive charge storage, which are responsible for the high‐rate capability.
ISSN:2768-1696

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