超级电容器
电容
电极
电化学
桥接(联网)
电容器
材料科学
纳米技术
储能
多孔性
光电子学
电压
化学
计算机科学
电气工程
物理
工程类
复合材料
量子力学
物理化学
功率(物理)
计算机网络
作者
Kang‐Kai Liu,Zong‐Jie Guan,Mengting Ke,Yu Fang
标识
DOI:10.1021/acscentsci.3c00027
摘要
Porous materials have been widely applied for supercapacitors; however, the relationship between the electrochemical behaviors and the spatial structures has rarely been discussed before. Herein, we report a series of porous coordination cage (PCC) flexible supercapacitors with tunable three-dimensional (3D) cavities and redox centers. PCCs exhibit excellent capacitor performances with a superior molecular capacitance of 2510 F mmol-1, high areal capacitances of 250 mF cm-2, and unique cycle stability. The electrochemical behavior of PCCs is dictated by the size, type, and open-close state of the cavities. Both the charge binding site and the charge transportation pathway are unambiguously elucidated for PCC supercapacitors. These findings provide central theoretical support for the "structure-property relationship" for designing powerful electrode materials for flexible energy storage devices.
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