以KMnO4为氧化剂,HNO3为插层剂,对石油焦进行膨化改性.以KOH为活化剂,在碱碳比为3∶1、4∶1和5∶1时,将膨化石油焦制备成活性炭(产物标记为EAC-3、EAC-4和EAC-5);作为对比,按照相同碱碳比,将未改性石油焦制备成活性炭(产物标记为AC-3、AC-4和AC-5).采用TG、XRD、I2吸附、N2吸附、循环伏安和交流阻抗谱对石油焦和活性炭进行了表征.研究表明,膨化改性使石油焦石墨微晶的晶面层间距由0.344 nm增加到0.359 nm,微晶厚度由2.34 nm降低到1.61 nm; EAC-3和AC-5的比表面积分别为3325和3291 m2/g;在0.5 mV/s的扫描速度下,EAC-3和AC-5比电容分别为448和429 F/g;基于EAC-3的超级电容器具有更低的内阻和更好的功率特性.
参考文献
| [1] | LIU Y,ZHAO Y L,GAO A F,et al.Facile synthesis and supercapacitor properties of graphene nanosheets.Journal of Inorganic Materials,2013,28(6):611-615. |
| [2] | WEI L,YUSHIN G Electrical double layer capacitors with activated sucrose-derived carbon electrodes.Carbon,2011,49(14):4830-4838. |
| [3] | GARCIA B B,CANDELARIA S L,CAO G Nitrogenated porous carbon electrodes for supercapacitors.Journal of Materials Science,2012,47(16):5996-6004. |
| [4] | LUO H M,YANG P,ZHANG F B.Preparation and electrochemical properties of coke powder activated carbon based electrode materials.Journal of Materials Science:Materials in Electronics,2013,24(2):586-593. |
| [5] | YUAN Y F,XIA X H,WU J B,et al.Hierarchically porous Co3O4 film with mesoporous walls prepared via liquid crystalline template for supercapacitor application.Electrochemistry Communications,2011,13(10):1123-1126. |
| [6] | SUN J,BI H.Pickering emulsion fabrication and enhanced supercapacity of graphene oxide-covered polyaniline nanoparticles.Materials Letters,2012,81:48-51. |
| [7] | POGNON G,BROUSSE T,B(E)LANGER D.Effect of molecular grafting on the pore size distribution and the double layer capacitance of activated carbon for electrochemical double layer capacitors.Carbon,2011,49(4):1340-1348. |
| [8] | BARPANDA P,FANCHINI G,AMATUCCI G G.Structure,surface morphology and electrochemical properties of brominated activated carbons.Carbon,2011,49(7):2538-2548. |
| [9] | SEREDYCH M,HULICOVA-JURCAKOVA D,LU G Q,et al.Surface functional groups of carbons and the effects of their chemical character,density and accessibility to ions on electrochemical performance.Carbon,2008,46(11):1475-1488. |
| [10] | RAMBABU N,AZARGOHAR R,DALAI A K,et al.Evaluation and comparison of enrichment efficiency of physical/chemical activations and functionalized activated carbons derived from fluid petroleum coke for environmental applications.Fuel Processing Technology,2013(106):501-505. |
| [11] | LEE S H,CHOI C S.Chemical activation of high sulfur petroleum cokes by alkali metal compounds.Fuel Process Technology,2000,64:141-153. |
| [12] | ZHU X P,FU Y,HU G S,etal.CO2 capture with activated carbons prepared by petroleum coke and KOH at low pressure.Water Air Soil Pollut.,2013(224):1387-1398. |
| [13] | LEE S H,CHOI C S.Chemical activation of high sulfur petroleum cokes by alkali metal compounds.Fuel Processing Technology,2000,64:141-153. |
| [14] | TAKAYUKI K,MITSUHIRO K,MAURICE S O,et al.Preparation of activated carbon from potroleum coke by KOH chemical activation for adsorption heat pump.Applied Thermal Engineering,2008,28:865-871. |
| [15] | HE X,LEI J,GENG Y,et al.Preparation ofmicroporous activated carbon and its electrochemical performance for electric double layer capacitor.Journal of Physics and Chemistry of Solids,2009,70(3/4):738-744. |
| [16] | LU C L,XU S P,GAN Y X,et al.Effect of pre-oxidation on the development of porosity in activated carbons from petroleum coke.Carbon,2007,45:206-209. |
| [17] | JIANG B C,ZHANG Y C,ZHOU J X,et al.Effects of chemical modification of petroleum cokes on the properties of the resulting activated carbon.Fuel, 2008,87:1844-1848. |
| [18] | XING W,YAN Z E Effects of preoxidation on the surface properties of super active carbon.New Carbon Materials,2002,17(3):25-30. |
| [19] | SHI Z Q,ZHAO S,CHEN M M,et al.Effects of precarbonization on structure and capacitive behavior of petroleum coke activated by KOH.Journal ofInorganic Materials,2008,23(4):800-804. |
| [20] | LU C L,XU S P,GAN Y X,et al.Effect of pre-carbonization of petroleum cokes on chemical activation with KOH.Carbon,2005,43:2295-2301. |
| [21] | YUE Z R,JIANG W,WANG L,et al.Surface characterization of electrochemically oxidized carbon fibers.Carbon,1999,37(11):1785-1796. |
| [22] | MENG Q H,LI K X,SONG Y,et al.Study on the capacitive properties of activated carbon electrodes obtained from oil tar.New Carbon Materials,2001,16(4):18-21. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%