超级电容器
电化学
化学
金属有机骨架
储能
电极
热解
配体(生物化学)
化学工程
拓扑(电路)
电化学储能
纳米技术
材料科学
物理化学
有机化学
物理
工程类
吸附
功率(物理)
受体
组合数学
量子力学
生物化学
数学
作者
Richa Rajak,Mohit Saraf,Praveen Kumar,Kaushik Natarajan,Shaikh M. Mobin
出处
期刊:Inorganic Chemistry
[American Chemical Society]
日期:2021-10-26
卷期号:60 (22): 16986-16995
被引量:19
标识
DOI:10.1021/acs.inorgchem.1c02062
摘要
Recently, metal-organic frameworks (MOFs) have been widely employed as a sacrificial template for the construction of nanostructured materials for a range of applications including energy storage. Herein, we report a facile mixed-ligand strategy for the synthesis of a Cu-MOF, [Cu3(Azopy)3(BTTC)3(H2O)3·2H2O]n (where BTTC = 1,2,4,5-benzenetetracarboxylic acid and Azopy = 4,4'-azopyridine), via a slow-diffusion method at room temperature. X-ray analysis authenticates the two-dimensional (2D)-layered framework of Cu-MOF. Topologically, this 2D-layered structure is assigned as a 4-connected unimodal net with sql topology. Further, nanostructured CuO is obtained via a simple precipitation method by employing Cu-MOF as a precursor. After analysis of their physicochemical properties through various techniques, both materials are used as surface modifiers of glassy carbon electrodes for a comparative electrochemical study. The results reveal a superior charge storage performance of CuO (244.2 F g-1 at a current density of 0.8 A g-1) with a high rate capability compared to Cu-MOF. This observation paves the pathway for the strategic design of high-performing supercapacitor electrode materials.
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