共价有机框架作为超级电容器电极材料的应用

Yanmin Wan , Baoshou Shen , Xiaoli Zhu , Zhongming Guo
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摘要

超级电容器因其卓越的功率密度、出色的循环稳定性和快速充放电速率而备受关注。电极材料的特性决定了超级电容器的电荷存储性能。共价有机框架(COFs)是一类新型结晶多孔聚合物材料,具有均匀的纳米级孔隙、较大的比表面积以及框架内可调的氧化还原活性基团,可根据具体应用进行调整。它们具有灵活的分子设计和合成策略,在能量存储领域具有强大的应用潜力。大多数 COF 固有电导率低,活性位点利用率低,导致电化学性能不全面。通过加入氧化还原活性基团、氢键或将 COFs 与其他材料结合,可以开发出混合系统,从而提高 COFs 材料的储能性能。本综述文章概述了 COFs 的背景,包括简介、设计策略和合成方法。文章还讨论了 COFs 在超级电容器中的应用,并将其分为:原始 COFs、改性 COFs 和 COF 基复合材料。最后,综述探讨了这些材料在超级电容器中的实际应用所面临的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Application of covalent organic frameworks as electrode materials for supercapacitors
Supercapacitors have garnered significant attention due to their superior power density, excellent cycle stability, and fast charge/discharge rates. The properties of the electrode materials determine the charge storage performance of supercapacitors. Covalent organic frameworks (COFs) are a novel class of crystalline porous polymer materials with uniform nanoscale pores, large specific surface areas, and tunable redox-active groups within the framework, which can be tuned to suit specific applications. They have flexible molecular designs and synthetic strategies, demonstrating their strong application potential in the field of energy storage. Most COFs exhibit poor inherent conductivity and low utilization of active sites, resulting in incomplete electrochemical performance. Hybrid systems can be developed by incorporating redox-active groups, hydrogen bonding, or combining COFs with other materials to improve the energy storage performance of COFs materials. In this review article, the background of COFs is summarized, including a brief introduction, design strategy, and synthesis methods. It also discusses their applications in supercapacitors and is categorized into: pristine COFs, modified COFs, and COF matrix composites. Finally, the review addresses the challenges that remain for the practical application of these materials in supercapacitors.
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