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超级电容器用石墨烯极片的制备和性能 被引量:12

Preparation and properties of graphene for supercapacitor application
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摘要 以石墨粉为原料,通过简便的氧化还原法制备了石墨烯。将石墨烯极片在有机电解液体系中组装成超级电容器。利用XRD、SEM对制备的石墨烯电极进行物相和形貌分析。采用恒电流充放电、循环伏安和交流阻抗对所制备超级电容器的电容性能进行了研究。结果表明,石墨烯电极超级电容器比天然石墨制备的超级电容器的比电容有了明显的提高;在电流密度为200mA/g,电压区间为1.25~2.5V下循环888次后比电容保持在45.5F/g,容量保持率在85.5%,表明石墨烯材料制备的电容器具有较好的充放电循环性能。 Ahstraet.Graphene were prepared by simple redox method using graphite as raw materials. Supercapacitors were fabricated using the as-prepared graphene as electrode in organic electrolyte . The phase and morphology were characterized by XRD and SEM methods. The performance of supercapacitors were analyzed using gal- vanostatic charging and discharging testing, cyclic vohammetry and electrochemical impedance spectroscopy. The results showed that graphene-based supercapacitors had larger values of specific capacitance than that of the natural graphite-based ones. The specific capacitance was 45.5F/g (rentention rate at 85.5 %) after 888 char- ging and discharging cycles at the current density of 200mA/g between the voltage from 1.25 to 2.5V. The gra- phene-based supercapacitors have a good charge-discharge cycle performance.
出处 《功能材料》 EI CAS CSCD 北大核心 2013年第19期2810-2813,2818,共5页 Journal of Functional Materials
基金 深圳市战略性新兴产业发展专项资金资助项目(JCYJ20120619140727666 ZDSY20120619141659791)
关键词 超级电容器 石墨烯 氧化还原法 比电容 循环伏安法 supercapacitor graphene redox method specific capacitance cyclic voltammetry
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  • 1Conway B E. Transition from "supercapacitor" to "battery" behavior in electrochemical energy storage[J]Journal of the Electrochemical Society, 1991, 138 (6): 1539-1548.
  • 2Futaba D N, Hata K, Yamada T, et al. Shape-engineerable and highly densely packed single-walled carbon nanotubes and their application as supercapacitor electrodes[J]. Nature Materials, 2006, 5(12): 987-994.
  • 3Lee H v, GoodenoughJ B. Supercapacitor behavior with KCI electrolyte[J].Journal of Solid State Chemistry, 1999, 144(1): 220-223.
  • 4Simon P, Gogotsi Y. Materials for electrochemical capacitors[J]. Nature Materials, 2008, 7(11): 845-854.
  • 5王凯,张莉,李琛.混合型高电压超级电容器的研究[J].功能材料,2012,43(13):1675-1677. 被引量:4
  • 6Frackowiak E. Carbon materials for supercapacitor application[J]. Physical Chemistry Chemical Physics, 2007, 9(15): 1774-1785.
  • 7Zhang Lili, Zhao X S. Carbon-based materials as supercapacitor electrodes[J]. Chemical Society Reviews, 2009, 38(9): 2520-2531.
  • 8Wang Yan , Shi Zhiqiang , Huang Yi , et al. Supercapacitor devices based on graphene materials[J]. TheJournal of Physical Chemistry C, 2009, 113(30): 13103-13107.
  • 9Zhang Lili, Zhou Rui, Zhao X S. Graphene-based materials as supercapacitor electrodes[J].Journal of Materials Chemistry, 2010, 20(29): 5983-5992.
  • 10万传云,王利军,沈绍典,朱贤.合成路径对超级电容器用二氧化锰性质的影响[J].化学学报,2009,67(14):1559-1565. 被引量:12

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