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全钒液流电池磺化石墨烯/Nafion复合膜的研究 被引量:3

Sulfonated-Graphene/Nafion Composite Membrane for All Vanadium Redox Flow Batteries
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摘要 本文通过磺化石墨烯对Nafion膜进行改性,研究了磺化石墨烯/Nafion复合膜(GRS-Nafion复合膜)的吸水率、电阻率和钒离子迁移数.结果表明,经磺化石墨烯改性之后,GRS-Nafion复合膜的面电阻和钒离子渗透率显著降低.全钒液流电池的测试结果表明,GRS-Nafion复合膜有着更加优异的电化学性能,展示出GRS-Nafion复合膜在液流电池中的应用潜力. Nafion membrane has been widely used in fuel cells due to its good proton conductivity, chemical and mechanical stabilities. However, the well-developed water channels in Nafion membrane have restricted its application in all vanadium redox flow batteries owing to the high permeation of vanadium ions and the cost. In this work, the water adsorption rate, resistivity and transference number of vanadium ions of sulfonated-graphene/Nafion composite membrane were investigated and compared with those of Nafion membrane in an effort to overcome the abovementioned drawbacks. It was found that the area resistivity and permeation rate of sulfonated-graphene/Nafion composite membrane were significantly reduced after the modification of Nation membrane by sulfonated grapheme. The results from the all vanadium redox flow battery indicated that the sulfonated-graphene/Nafion composite membrane exhibited better electrochemical performance, demonstrating potential application in all vanadium redox flow batteries.
作者 杨大伟 董燕青 范镜敏 郑明森 董全峰
机构地区 淮安科润膜材料有限公司 厦门大学化学化工学院化学系
出处 《电化学》 CAS CSCD 北大核心 2015年第5期407-410,共4页 Journal of Electrochemistry
基金 江苏省科技厅项目(No.BE2013084 No.BA2014117)资助
关键词 全钒液流电池 磺化石墨烯 NAFION膜 隔膜 all vanadium redox flow batteries sulfonated-graphene Nafion membrane membrane
分类号 TM912 [电气工程—电力电子与电力传动]
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参考文献11

  • 1Skyllas-Kazacos M, Rychcik M, Robins R G, et al. New all-vanadium redox flow cell[J]. Journal of The Electro- chemical Society, 1986, 133(5): 1057-1058.
  • 2Sukkar T, Skyllas-Kazacos M. Modification of membranes using polyelectrolytes to improve water transfer properties in the vanadium redox battery[J]. Journal of Membrane Science, 2003, 222(1/2): 249-264.
  • 3Yang Z G, Zhang J L, Kintner-Meyer MCW, et al. Electro- chemical energy storage for green grid[J]. Chemical Re- views, 2011, 111(5): 3577-3613.
  • 4Zaffou R, Li W N, Perry M L. Vanadium redox flow bat- teries for electrical energy storage: Challenges and oppor-tunities[M]//Polymers for energy storage and delivery: poly- electrolytes for batteries and fuel cells. ACS Symposium Series, Vol. 1096, American Chemical Society, 2012: 107-127.
  • 5Sun C X, Chen J, Zhang H M, et al. Investigations on transfer of water and vanadium ions across Nation mem- brane in an operating vanadium redox flow battery [J]. Journal of Power Sources, 2010, 195(3): 890-897.
  • 6Vijayakumar M, Bhuvaneswari M S, Nachimuthu P, et al. Spectroscopic investigations of the fouling process on Nation membranes in vanadium redox flow batteries [J]. Journal of Membrane Science, 2011,366(1/2): 325-334.
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  • 8Xi J Y, Wu Z H, Qiu X P, et al. Nafion/SiO2 hybrid mem- brane for vanadium redox flow battery[J]. Journal of Pow- er Sources, 2007, 166(2): 531-536.
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  • 10Alberti G, Casciola M, Capitani D, et al. Novel Nation- zirconium phosphate nanocomposite membranes with en- hanced stability of proton conductivity at medium tern perature and high relative humidity[J]. Eleetroehimica Acta, 2007, 52(28): 8125-8132.

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电化学
2015年 第5期

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