摘要
以玉米秸秆为碳源、ZnCl_2为刻蚀剂,通过调控玉米秸秆与ZnCl_2的相对用量得到一系列多孔碳材料(YAC-x).利用XRD、Raman、XPS、TEM、N2adsorption-desorption等手段对其进行表征,并利用三电极超级电容器体系测试其电化学性能.结果表明,与未经刻蚀的玉米秸杆碳(YC)相比,所制多孔碳材料具有更丰富的孔结构及更为优异的超级电容性能,其中YAC-4最为突出,当电流密度为1A/g时,比电容为236.8F/g,这是源于其大的孔容(Vp=1.11cm~3/g)和高比表面积(SBET=2060m~2/g).
A series of porous carbon materials(YAC-x)were prepared from corn stalk using ZnCl_2 as etchant by adjusting their relative dosages.The obtained samples were characterized by XRD,Raman,XPS,TEM and N2 adsorption-desorption.Furthermore,a three-electrode supercapacitor system was employed to investigate their electrochemical performance.Comparing with the unetched corn stalk-derived carbon(YC),the resultant porous carbon materials have more abundant pore structure and much better supercapacitor performance.Among them,YAC-4 is the most prominent one,whose specific capacitance is as high as 236.8 F/g at a current density of 1 A/g.This is due to its large pore volume(Vp= 1.11 cm~3/g)and high specific surface area(SBET= 2060 m~2/g).
引文
[1]ZHANG Lei,HU Xiaosong,WANG Zhenpo,et al.A review of supercapacitor modeling,estimation,and applications:Acontrol/management perspective[J].Renewable&Sustainable Energy Reviews,2018,81(2):1868-1878.
[2]GONZALEZ A,GOIKOLEA E,BARRENA JA,et al.Review on supercapacitors:Technologies and materials[J].Renewable&Sustainable Energy Reviews,2016,58:1189-1206.
[3]刘诗涵,周羽生,许振华,等.基于超级电容蓄能的永磁同步海上风电低电压穿越研究[J].电力系统保护与控制,2018,46(5):9-15.LIU Shihan,ZHOU Yusheng,XU Zhenhua,et al.Research on low-voltage ride through capability of permanent magnetic synchronous offshore wind power based on super-capacitor energy storage[J].Power System Protection and Control,2018,46(5):9-15.
[4]赵雪,邱平达,姜海静,等.超级电容器电极材料研究最新进展[J].电子元件与材料,2015,34(1):1-8.ZHAO Xue,QIU Pingda,JIANG Haijing,et al.Latest research progress of electrode materials for supercapacitor[J].Electronic Components&Materials,2015,34(1):1-8.
[5]SU Xiaoli,FU Lin,CHENG Mingyu,et al.3Dnitrogen-doped graphene aerogel nanomesh:Facile synthesis and electrochemical properties as the electrode materials for supercapacitors[J].Applied Surface Science,2017,426:924-932.
[6]SU Xiaoli,CHEN Jingran,ZHENG Guangping,et al.Three-dimensional porous activated Carbon derived from loofah sponge biomass for supercapacitor applications[J].Applied Surface Science,2018,436:327-336.
[7]樊阳,刘培芳,崔影.球形多孔氧化钴/碳复合材料的制备及电容性能研究[J].信阳师范学院学报(自然科学版),2015,28(4):533-537.FAN Yang,LIU Peifang,CUI Ying.Preparation and capacitive properties of spherical porous Co3O4/C composite material[J].Journal of Xinyang Normal University(Natural Science Edition),2015,28(4):533-537.
[8]LIU Xinyue,WANG Jianxing,YANG Guowei.Amorphous nickel oxide and crystalline manganese oxide nanocomposite electrode for transparent and flexible supercapacitor[J].Chemical Engineering Journal,2018,347:101-110.
[9]张明.聚苯胺/酚醛树脂基活性炭复合材料的制备及表征[J].当代化工,2018,47(2):268-271.ZHANG Ming.Preparation and characterization ofpolyaniline/phenolic resins-based activated carbon composite materials[J].Contemporary Chemical Industry,2018,47(2):268-271.
[10]LEI D Y,SONG K H,LI X D,et al.Nanostructured polyaniline/kenaf-derived 3Dporous carbon materials with high cycle stability for supercapacitor electrodes[J].Journal of Materials Science,2017,52(4):2158-2168.
[11]周凤羽.基于生物质的纳米孔碳复合材料的制备及电容性能研究[D].上海:上海交通大学,2015.ZHOU Fengyu.Synthesis and electrochemical capacitance of biomass-derived nanoporous carbon composites[D].Shanghai:Shanghai Jiao Tong University,2015.
[12]ENOCK T K,KING'ONDU C K,POGREBNOI A,et al.Status of biomass derived carbon materials for spercapacitor application[J].International Journal of Electrochemistry,2017:6453420.
[13]SU Xiaoli,CHENG Mingyu,FU Lin,et al.Superior supercapacitive performance of hollow activated carbon nanomesh with hierarchical structure derived from poplar catkins[J].Journal of Power Sources,2017,362:27-38.
[14]CHEN Chong,YU Dengfeng,ZHAO Gongyuan,et al.Three-dimensional scaffolding framework of porous carbon nanosheets derived from plant wastes for high-performance supercapacitors[J].Nano Energy,2016,27:377-389.
[15]SU Xiaoli,JIANG Shuai,ZHENG Guangping,et al.High-performance supercapacitors based on porous activated carbons from cattail wool[J].Journal of Materials Science,2018,53(12):9191-9205.