2018 05 v.22;No.126 274-279
超级电容器及其电极材料研究进展
基金项目(Foundation):
邮箱(Email):
DOI:
中文作者单位:
公安消防部队高等专科学校;
摘要(Abstract):
本文综述了超级电容器及其电极材料的研究进展,包括电容器的基本原理、超级电容器的介绍、超级电容器的分类及其机理、碳基电极材料超级电容的研究状况等。在碳基电极材料超级电容的研究状况中,主要介绍了活性炭、碳纳米管、石墨烯及其衍生物应用于超级电容的情况,介绍了碳基材料复合导电聚合物应用于超级电容电极材料的情况,并对超级电容器电极材料的发展前景进行了展望。
关键词(KeyWords):
电容器;;超级电容器;;碳基电极材料;;碳基材料复合导电聚合物
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参考文献
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[27]Gui D,Liu C,Chen F,et al.Preparation of polyaniline/graphene oxide nanocomposite for the application of supercapacitor[J].Applied Surface Science,2014,307(8):172-177.
[28]Sarno M,Baldino L,Scudieri C,et al.Supercritical CO2,processing to improve the electrochemical properties of graphene oxide[J].Journal of Supercritical Fluids,2016,118:119-127.
[29]Xu J,Ju Z,Cao J,et al.Microwave synthesis of nitrogen-doped mesoporous carbon/nickel-cobalt hydroxide microspheres for high-performance supercapacitors[J].Journal of Alloys&Compounds,2016,689:489-499.
[30]Zhao Q,Wang X,Xia H,et al.Design,preparation and performance of novel three-dimensional hierarchically porous carbon for supercapacitors[J].Electrochimica Acta,2015,173:566-574.
[31]Cao H,Zhou X,Zhang Y,et al.Microspherical polyaniline/graphene nanocomposites for high performance supercapacitors[J].Journal of Power Sources,2013,243(6):715-720.
[32]Hassan M,Reddy K R,Haque E,et al.Hierarchical assembly of graphene/polyaniline nanostructures to synthesize free-standing supercapacitor electrode[J].Composites Science&Technology,2014,98(16):1-8.
[33]Trung N B,Tam T V,Kim H R,et al.Three-dimensional hollow balls of graphene-polyaniline hybrids for supercapacitor applications[J].Chemical Engineering Journal,2014,255(255):89-96.
[34]Hassan M,Reddy K R,Haque E,et al.Hierarchical assembly of graphene/polyaniline nanostructures to synthesize free-standing supercapacitor electrode[J].Composites Science&Technology,2014,98(16):1-8.
[2]Pandolfo A G,Hollenkamp A F.Carbon properties and their role in supercapacitors[J].Journal of Power Sources,2006,157(1):11-27.
[3]徐斌,张浩,曹高萍等.化学进展,2011,23(2):605-611.
[4]Y.Zhang,H.Feng,X.B.Wu,et al.Progress of electrochemical capacitor electrode materials:A review[J].International Journal of Hydrogen Energy,2009,34(11):4889-4899.
[5]Zhang L L,Zhao X S.Carbon-based materials as supercapacitor electrodes[J].Chemical Society Reviews,2009,38(9):2520-2531.
[6]Ruiz V,Blanco C,Santamaría R,et al.Carbon molecular sieves as model active electrode materials in supercapacitors[J].Microporous&Mesoporous Materials,2008,110(2):431-435.
[7]Wang K,Li L,Zhang T,et al.Nitrogen-doped graphene for supercapacitor with long-term electrochemical stability[J].Energy,2014,70(3):612-617.
[8]Chang J,Gao Z,Liu X,et al.Hierarchically porous carbons with graphene incorporation for efficient supercapacitors[J].Electrochimica Acta,2016,213:382-392.
[9]Wang B,Qiu J,Feng H,et al.KOH-activated nitrogen doped porous carbon nanowires with superior performance in supercapacitors[J].Electrochimica Acta,2016,190:229-239.
[10]Geng Z,Wang H,Wang R,et al.Facile synthesis of hierarchical porous carbon for supercapacitor with enhanced electrochemical performance[J].Materials Letters,2016,182:1-5.
[11]Zhengjie Li,Wei Lv,Chen Zhang,et al.A sheet-like porous carbon for high-rate supercapacitors produced by the carbonization of an eggplant.Carbon,2015,92:11-14.
[12]Wei T,Wei X,Gao Y,et al.Large scale production of biomass-derived nitrogen-doped porous carbon materials for supercapacitors[J].Electrochimica Acta,2015,169:186-194.
[13]Zhao Q,Wang X,Xia H,et al.Design,preparation and performance of novel three-dimensional hierarchically porous carbon for supercapacitors[J].Electrochimica Acta,2015,173:566-574.
[14]Li Z Y,Akhtar M S,Yang O B.Supercapacitors with ultrahigh energy density based on mesoporous carbon nanofibers:Enhanced double-layer electrochemical properties[J].Journal of Alloys&Compounds,2015,653:212-218.
[15]Qian W,Zhu J,Zhang Y,et al.Condiment-Derived 3DArchitecture Porous Carbon for Electrochemical Supercapacitors[J].Small,2015,11(37).
[16]Wang Q,Yan J,Wang Y,et al.Three-dimensional flower-like and hierarchical porous carbon materials as high-rate performance electrodes for supercapacitors[J].Carbon,2014,67(2):119-127.
[17]Ma C,Li Y,Shi J,et al.High-performance supercapacitor electrodes based on porous flexible carbon nanofiber paper treated by surface chemical etching[J].Chemical Engineering Journal,2014,249(249):216-225.
[18]Wang Y,Shi Z,Huang Y,et al.Supercapacitor Devices Based on Graphene Materials[J].Journal of Physical Chemistry C,2009,113(30):13103-13107.
[19]Saghafi M,Mahboubi F,Mohajerzadeh S,et al.Preparation of vertically aligned carbon nanotubes and their electrochemical performance in supercapacitors[J].Advanced Manufacturing Processes,2015,195(1):252-259.
[20]Jiang L,Sheng L,Long C,et al.Densely packed graphene nanomesh-carbon nanotube hybrid film for ultrahigh volumetric performance supercapacitors[J].Nano Energy,2015,11(21):471-480.
[21]Fan W,Miao Y E,Huang Y,et al.Flexible free-standing 3Dporous N-doped graphene-carbon nanotube hybrid paper for high-performance supercapacitors[J].Rsc Advances,2015,5(12):9228-9236.
[22]S W Hwang,S H Hyun.Capacitance control of carbon aerogel electrodes.J.Non-Cryst.Solids,2004,347(1-3):238-245.
[23]Hu J,Kang Z,Li F,et al.Graphene with three-dimensional architecture for high performance supercapacitor[J].Carbon,2014,67(67):221-229.
[24]Wang Y,Shi Z,Huang Y,et al.Supercapacitor Devices Based on Graphene Materials[J].Journal of Physical Chemistry C,2009,113(30):13103-13107.
[25]Haque E,Islam M M,Pourazadi E,et al.Nitrogen doped graphene via thermal treatment of composite solid precursors as a high performance supercapacitor[J].Rsc Advances,2015,5(39):30679-30686.
[26]Trung N B,Tam T V,Kim H R,et al.Three-dimensional hollow balls of graphene-polyaniline hybrids for supercapacitor applications[J].Chemical Engineering Journal,2014,255(255):89-96.
[27]Gui D,Liu C,Chen F,et al.Preparation of polyaniline/graphene oxide nanocomposite for the application of supercapacitor[J].Applied Surface Science,2014,307(8):172-177.
[28]Sarno M,Baldino L,Scudieri C,et al.Supercritical CO2,processing to improve the electrochemical properties of graphene oxide[J].Journal of Supercritical Fluids,2016,118:119-127.
[29]Xu J,Ju Z,Cao J,et al.Microwave synthesis of nitrogen-doped mesoporous carbon/nickel-cobalt hydroxide microspheres for high-performance supercapacitors[J].Journal of Alloys&Compounds,2016,689:489-499.
[30]Zhao Q,Wang X,Xia H,et al.Design,preparation and performance of novel three-dimensional hierarchically porous carbon for supercapacitors[J].Electrochimica Acta,2015,173:566-574.
[31]Cao H,Zhou X,Zhang Y,et al.Microspherical polyaniline/graphene nanocomposites for high performance supercapacitors[J].Journal of Power Sources,2013,243(6):715-720.
[32]Hassan M,Reddy K R,Haque E,et al.Hierarchical assembly of graphene/polyaniline nanostructures to synthesize free-standing supercapacitor electrode[J].Composites Science&Technology,2014,98(16):1-8.
[33]Trung N B,Tam T V,Kim H R,et al.Three-dimensional hollow balls of graphene-polyaniline hybrids for supercapacitor applications[J].Chemical Engineering Journal,2014,255(255):89-96.
[34]Hassan M,Reddy K R,Haque E,et al.Hierarchical assembly of graphene/polyaniline nanostructures to synthesize free-standing supercapacitor electrode[J].Composites Science&Technology,2014,98(16):1-8.
基本信息:
DOI:
中图分类号:TM53
引用信息:
[1]程锦.超级电容器及其电极材料研究进展[J].电池工业,2018,22(05):274-279.
基金信息: