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不同炭材料对Zn-PANi二次电池性能的影响

Effects of different carbon materials on performance of Zn-PANi rechargeable battery

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【作者】 刘德丽程瑾宁朱超孙德智

【Author】 LIU De-li1,2,CHENG Jin-ning2,ZHU Chao2,SUN De-zhi1 (1.School of Municipal and Environmental Engineering,Harbin Institute of Technology,Harbin Heilongjiang 150090,China;2.Department of Bioengineering,Weihai Campus,Harbin Institute of Technology,Weihai Shandong 264209,China)

【机构】 哈尔滨工业大学市政环境学院哈尔滨工业大学(威海)海洋学院

【摘要】 在聚苯胺合成过程中加入石墨、活性炭和酚醛炭,得到的PANi/C复合材料用于组装Zn-PANi二次电池。研究发现:具有苯环结构的石墨和酚醛炭,能够大幅度提高材料的导电性;减小电池内阻;而活性炭和酚醛炭具有大的比表面积和羟基官能团,有利于PANi在其表面的物理和化学吸附,提高PANi分散性,电池容量大幅度提高。尤其是酚醛炭兼有石墨和活性炭的优点,效果最好,电池的比容量由70 mAh/g提高到110 mAh/g,库伦效率>95%。循环伏安和可见光谱研究表明,掺杂炭并不会改变PANi充放电的电化学反应。

【Abstract】 Graphite,activated carbon and phenolic carbon were added to acidic aniline solution during the process of polymerization.And the PANi/C composition was employed as a positive cathode for a Zn-PANi secondary battery.The results show that the graphite and phenolic carbon can improve the material conductivity and reduce the battery internal resistance.Because the activated carbon and phenolic carbon have large specific surface area and hydroxyl,they are conductive to the physical and chemical adsorption of polyaniline in its surface.At the same time,they can increase the dispersion of PANi and improve the battery capacity significantly.Phenolic carbon is the best doped material for PANi and the battery specific capacity is increased from 70 mAh/g to 110 mAh/g with a columbic efficiency of 95%-100%.Cyclic voltammetery and visible spectroscopy shows that the doped carbon do not change the charge and discharge electrochemical reaction of PANi.

【关键词】 聚苯胺二次电池炭材料
【Key words】 polyanilinerechargeable batterycarbon materials
  • 【文献出处】 电源技术 ,Chinese Journal of Power Sources , 编辑部邮箱 ,2011年12期
  • 【分类号】TM912
  • 【被引频次】6
  • 【下载频次】127
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