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    Journals >Journal of Inorganic Materials >Volume 35 >Issue 4 >Page 407 > Article
    • Journal of Inorganic Materials
    • Vol. 35, Issue 4, 407 (2020)
    Research Progress on Advanced Carbon Materials as Pt Support for Proton Exchange Membrane Fuel Cells
    Yi LUO, Junzong FENG, Jian FENG*, Yonggang JIANG, and Liangjun LI
    Author Affiliations
  • Science and Technology on Advanced Ceramic Fibers and Composites Laboratory, College of Aerospace and Engineering, National University of Defense Technology, Changsha 410073, China
    • show less
    DOI: 10.15541/jim20190169 Cite this Article
    Yi LUO, Junzong FENG, Jian FENG, Yonggang JIANG, Liangjun LI. Research Progress on Advanced Carbon Materials as Pt Support for Proton Exchange Membrane Fuel Cells[J]. Journal of Inorganic Materials, 2020, 35(4): 407 Copy Citation Text show less
    Schematic diagram of PEMFC[6]
    1. Schematic diagram of PEMFC[6]
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    Degradation schematic diagram of Pt nanoparticles on carbon black[21]
    2. Degradation schematic diagram of Pt nanoparticles on carbon black[21]
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    AFM images of high oriented polyrotic graphite surface before (a) and after (b) electrochemical corrosion[27]
    3. AFM images of high oriented polyrotic graphite surface before (a) and after (b) electrochemical corrosion[27]
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    FESEM micrographs of carbon aerogel samples CA20(a), CA30(b) and CA40(c) [28]
    4. FESEM micrographs of carbon aerogel samples CA20(a), CA30(b) and CA40(c) [28]
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    Pore size distribution curves(a) of carbon aerogels determined by mercury porosimetry with different molar ratios of resorcinol (R) and sodium carbonate (C), and their corresponding single cell polarization curves(b)[29]
    5. Pore size distribution curves(a) of carbon aerogels determined by mercury porosimetry with different molar ratios of resorcinol (R) and sodium carbonate (C), and their corresponding single cell polarization curves(b)[29]
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    TEM images after accelerated stress tests (AST P1) and Pt nanoparticles statistical distributions before and after accelerated stress tests (AST P1)of carbon aerogels (a), SnO2 coated carbon aerogels (b) supported Pt catalysts[36]
    6. TEM images after accelerated stress tests (AST P1) and Pt nanoparticles statistical distributions before and after accelerated stress tests (AST P1)of carbon aerogels (a), SnO2 coated carbon aerogels (b) supported Pt catalysts[36]
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    Schematic illustrations of the structures(a-c), tunneling electron microscope image(d), transmission electron microscope image (e) of carbon nanotubes[38]
    7. Schematic illustrations of the structures(a-c), tunneling electron microscope image(d), transmission electron microscope image (e) of carbon nanotubes[38]
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    PEMFC polarization curves recorded after accelerated stress tests with cathode catalysts of commercial Pt/carbon black (a) and Pt/carbon black-graphene hybrid material (b); Voltage retention normalized with respect to initial performance after 10, 20, 100, 200, 500, and 1000 cycles(c)[55]
    8. PEMFC polarization curves recorded after accelerated stress tests with cathode catalysts of commercial Pt/carbon black (a) and Pt/carbon black-graphene hybrid material (b); Voltage retention normalized with respect to initial performance after 10, 20, 100, 200, 500, and 1000 cycles(c)[55]
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    PropertyCarbon blackCarbon aerogelCarbon nanotubesGraphene
    Oxygen reduction reaction activity√√√√√√
    Proton transport√√√√
    O2 transport√√√√
    Water transport√√√√
    Pt dispersion√√
    Carbon corrosion√√
    Particle coalescence√√
    Table 1. Comparison of some properties for four carbon supports
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    Abstract
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    Yi LUO, Junzong FENG, Jian FENG, Yonggang JIANG, Liangjun LI. Research Progress on Advanced Carbon Materials as Pt Support for Proton Exchange Membrane Fuel Cells[J]. Journal of Inorganic Materials, 2020, 35(4): 407
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