Plasma modification on a Nafion membrane for direct methanol fuel cell applications

被引:0
|
作者
Shingjiang Jessie Lue
Te-Shun Shih
Ta-Chin Wei
机构
[1] Chang Gung University,Department of Chemical and Materials Engineering
[2] Chung Yuan University,Department of Chemical Engineering
来源
Korean Journal of Chemical Engineering | 2006年 / 23卷
关键词
Plasma Modification; Nafion; Methanol Permeability; Optimization; Fuel Cell;
D O I
暂无
中图分类号
学科分类号
摘要
This research focuses on Nafion modification using plasma techniques for direct methanol fuel cell applications. The results indicated the both argon (Ar) and carbon tetrafluoride (CF4) plasma treatments modified the Nafion surface substantially without altering the bulk properties. The Nafion surface exposed to CF4 plasma resulted in a more hydrophobic layer and an even lower MeOH permeability than the Ar-treated membrane. The plasma operating conditions using CF4 were optimized by utilizing an experimental design. The minimum MeOH permeability was reduced by 74%. The conductivity was 1–2×10-3 S/cm throughout the entire experimental range. Suppressed MeOH permeability can be achieved while maintaining the proton conductivity at a satisfactory level by adjusting the plasma operating conditions.
引用
收藏
页码:441 / 446
页数:5
相关论文
共 50 条
  • [21] Using a novel sulfonated silica nanoparticles for Nafion® membrane for direct methanol fuel cell
    Su, Yu-Huei
    Wei, Tung-Yu
    Hsu, Chih-Hao
    Liu, Ying-Ling
    Sun, Yi-Ming
    Lai, Juin-Yih
    DESALINATION, 2006, 200 (1-3) : 656 - 657
  • [22] Carbon Dioxide Transport in Nafion 1100 EW Membrane and in a Direct Methanol Fuel Cell
    Ren, Xiaoming
    Myles, Timothy D.
    Grew, Kyle N.
    Chiu, Wilson K. S.
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 2015, 162 (10) : F1221 - F1230
  • [23] Performance evaluation of a Nafion/silicon oxide hybrid membrane for direct methanol fuel cell
    Jung, DH
    Cho, SY
    Peck, DH
    Shin, DR
    Kim, JS
    JOURNAL OF POWER SOURCES, 2002, 106 (1-2) : 173 - 177
  • [24] The research of Nafion / PTFE / inorganic composite membrane used in direct methanol fuel cell
    Su, Dong-Yun
    Ma, Jun
    Pu, Hai-Kun
    CHEMICAL, MATERIAL AND METALLURGICAL ENGINEERING III, PTS 1-3, 2014, 881-883 : 927 - +
  • [25] Preparation and charateristics of Nafion membrane coated with a PVdF copolymer/recast Nafion blend for direct methanol fuel cell
    Cho, Ki-Yun
    Jung, Ho-Young
    Sung, Kyung A.
    Kim, Wan-Keun
    Sung, Shi-Joon
    Park, Jung-Ki
    Choi, Jong-Ho
    Sung, Yung-Eun
    JOURNAL OF POWER SOURCES, 2006, 159 (01) : 524 - 528
  • [26] Porous layered oxide/Nafion® nanocomposite membranes for direct methanol fuel cell applications
    Hudiono, Yeny
    Choi, Sunho
    Shu, Shu
    Koros, William J.
    Tsapatsis, Michael
    Nair, Sankar
    MICROPOROUS AND MESOPOROUS MATERIALS, 2009, 118 (1-3) : 427 - 434
  • [27] Miniaturised direct methanol fuel cell with a plasma polymerised electrolyte membrane
    Mex, L
    Müller, J
    MICROREACTION TECHNOLOGY: INDUSTRIAL PROSPECTS, 2000, : 402 - 408
  • [28] Organic silica/Nafion® composite membrane for direct methanol fuel cells
    Ren, Suzhen
    Sun, Gongquan
    Li, Chennan
    Liang, Zhenxing
    Wu, Zhimou
    Jin, Wei
    Qin, Xin
    Yang, Xuefeng
    JOURNAL OF MEMBRANE SCIENCE, 2006, 282 (1-2) : 450 - 455
  • [29] Effect of the thickness of Nafion membrane on the performance of direct methanol fuel cells
    Liu, Jian-Guo
    Yi, Bao-Lian
    Wang, Su-Li
    Wei, Zhao-Bin
    Xin, Qin
    Chen, Li-Kang
    Dianyuan Jishu/Chinese Journal of Power Sources, 2002, 26 (01):
  • [30] A monolayer graphene - Nafion sandwich membrane for direct methanol fuel cells
    Yan, X. H.
    Wu, Ruizhe
    Xu, J. B.
    Luo, Zhengtang
    Zhao, T. S.
    JOURNAL OF POWER SOURCES, 2016, 311 : 188 - 194
12345