本文主要研究内容
作者(2019)在《Ni/Co-based metal-organic frameworks as electrode material for high performance supercapacitors》一文中研究指出:A novel bimetallic Ni/Co-based metal-organic framework(Ni/Co-MOF) was successfully synthesized via a simple solvothermal method, and used as electrode material for high performance supercapacitors. After doping of Co element, the Ni/Co-MOF materials retain the original crystalline topology structure of Ni3(BTC)2·12H2O.The as-obtained Ni/Co-MOF demonstrates an excellent specific capacitance of 1067 and 780 F/g at current density of 1 and 10 A/g, respectively, and can also retain 68.4% of the original capacitance after 2500 cycles. These results suggest that bimetallic Ni/Co-based MOFs are promising materials for the next generation supercapacitance,owing to their excellent electrochemical performance. The synthetic procedure can be applied to synthesize other bimetallic MOFs and enhance their conductive property.
Abstract
A novel bimetallic Ni/Co-based metal-organic framework(Ni/Co-MOF) was successfully synthesized via a simple solvothermal method, and used as electrode material for high performance supercapacitors. After doping of Co element, the Ni/Co-MOF materials retain the original crystalline topology structure of Ni3(BTC)2·12H2O.The as-obtained Ni/Co-MOF demonstrates an excellent specific capacitance of 1067 and 780 F/g at current density of 1 and 10 A/g, respectively, and can also retain 68.4% of the original capacitance after 2500 cycles. These results suggest that bimetallic Ni/Co-based MOFs are promising materials for the next generation supercapacitance,owing to their excellent electrochemical performance. The synthetic procedure can be applied to synthesize other bimetallic MOFs and enhance their conductive property.
论文参考文献
[1].Asymmetric supercapacitors based on high capacitance Ni6MnO8 and graphene[J]. Mingyang Zeng,Li Zhang,DANDan Wu,Jun Ma,Cao Zhang,Shujuan Li. Chinese Chemical Letters.2019(06)[2].Pseudocapacitive materials for electrochemical capacitors:from rational synthesis to capacitance optimization[J]. Jie Wang,Shengyang Dong,Bing Ding,Ya Wang,Xiaodong Hao,Hui Dou,Yongyao Xia,Xiaogang Zhang. National Science Review.2017(01)[3].Effect of activation temperature on the properties of double layer capacitance of diatomite-templated carbon[J]. LI Aijun,CHUAN Xiuyun. Acta Geologica Sinica(English Edition).2017(S1)[4].Equivalent distributed capacitance model of oxide traps on frequency dispersion of C-V curve for MOS capacitors[J]. 卢汉汉,徐静平,刘璐,黎沛涛,邓咏雯. Chinese Physics B.2016(11)[5].Dominant role of wettability in improving the specific capacitance[J]. Tongtong Liu,Kai Wang,Yongxiu Chen,Shuangliang Zhao,Yongsheng Han. Green Energy & Environment.2019(02)[6].Pseudo-capacitance of ruthenium oxide/carbon black composites for electrochemical capacitors[J]. Xiaofeng Wang1), Dianbo Ruan1), Peng Wang2), and Yiqiang Lu2) 1) Department of Precision Instruments and Mechanics, Tsinghua University, Beijing 100084, China 2) School of Applied Science, University of Science and Technology BeiJing, Beijing 100083, China. Journal of University of Science and Technology Beijing.2008(06)[7].Effect of Ni-doping on electrochemical capacitance of MnO2 electrode materials[J]. 张治安,赖延清,李劼,刘业翔. Journal of Central South University of Technology.2007(05)[8].Magnetization-induced double-layer capacitance enhancement in active carbon/Fe3O4nanocomposites[J]. Guoxiang Wang,Hongfeng Xu,Lu Lua,Hong Zhao. Journal of Energy Chemistry.2014(06)[9].Investigation of the effects of MoO3 buffer layer on charge carrier injection and extraction by capacitance–voltage measurement[J]. Wei Gong,Zheng Xu,Suling Zhao,Xiaodong Liu,Xing Fan,Qianqian Yang,Chao Kong. Chinese Science Bulletin.2014(08)[10].Highly nitrogen and sulfur dual-doped carbon microspheres for supercapacitors[J]. Wen Lei,Junpo Guo,Zexing Wu,Cuijuan Xuan,Weiping Xiao,Deli Wang. Science Bulletin.2017(14)
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:Ni/Co-based metal-organic frameworks as electrode material for high performance supercapacitors论文
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