doi:10.16597/j.cnki.issn.1002-154x.2023.06.007
基于钴配合物所构建的超级电容器电极材料
张万松 徐彦宾 王峰 张少华 杨正龙 殷平*
(鲁东大学 化学与材料科学学院,山东 烟台 264025)
Electrode Materials for Supercapacitors Based on Cobalt Complexes
Zhang Wansong Xu Yanbin Wang Feng Zhang Shaohua Yang Zhenglong Yin Ping*
( School of Chemistry and Materials Science,Ludong University,Shandong Yantai 264025)
摘要:
超级电容器因其快速的充放电速率、高的功率密度等优点成为当今能源市场的主动力,作为超级电容器的主要组成部分,电极材料决定了超级电容器性能所能达到的高度。其中钴配合物凭借着高比表面积、宽孔径分布、可调节的晶体结构被认为是最有研究价值的电极材料之一。作者对钴基配合物的制备和性能进行了分析,并对超级电容器电极的发展趋势作出展望。
关键词:钴基配合物 电极材料 超级电容器;
Abstract:
Nowadays,supercapacitors have become the main driving force in the energy market with their properties of fast charge and discharge rates and high power density. As the main component of supercapacitors, electrode materials determine the heights that performance of supercapacitor can reach. Among them,cobaltbased complexes are considered to be one kind of the most valuable electrode materials for research due to their high specific surface area,wide pore size distribution,and tunable crystal structure. In this paper,the preparation and performance of cobalt-based complexes are analyzed,and the development trend of the supercapacitor electrodes is anticipated.
Keywords:Cobalt-based complexes; electrode materials; supercapacitors;