文化大學機構典藏 CCUR:Item 987654321/21116
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    题名: Platinum nanoparticles embedded in pyrolyzed nitrogen-containing cobalt complexes for high methanol-tolerant oxygen reduction activity
    作者: Wang, CH (Wang, Chen-Hao)
    Hsu, HC (Hsu, Hsin-Cheng)
    Chang, ST (Chang, Sun-Tang)
    Du, HY (Du, He-Yun)
    Chen, CP (Chen, Chin-Pei)
    Wu, JCS (Wu, Jeffrey Chi-Sheng)
    Shih, HC (Shih, Han-Chang)
    Chen, LC (Chen, Li-Chyong)
    Chen, KH (Chen, Kuei-Hsien)
    贡献者: 化材所
    关键词: CO ALLOY ELECTROCATALYSTS
    FUEL-CELLS
    CONTAINING ELECTROLYTES
    CATHODE CATALYSTS
    CROSSOVER
    RUTHENIUM
    ELECTRODES
    SELENIUM
    NI
    TETRAMETHOXYPHENYLPORPHYRIN
    日期: 2010-12
    上传时间: 2011-12-15 15:39:36 (UTC+8)
    摘要: High oxygen reduction activity of methanol-tolerant catalysts was successfully reported using platinum nanoparticles embedded in cobalt-based nitrogen-containing complexes supported on carbon blacks (Pt-N-complex/C). The oxygen reduction reaction (ORR) of the Pt-N-complex/C was attributed to four-electron transfer pathway in which oxygen was directly reduced to water, yielding four electrons. In a methanol-containing solution, the platinum intrinsically favors the methanol oxidation reaction over the ORR, which is a major drawback for direct methanol fuel cells (DMFCs). In comparison, when the Pt-N-complex/C is introduced in a methanol-containing solution, not only is the methanol oxidation suppressed but also the four-electron-transfer in the ORR is maintained up to the diffusion-limiting region. Physicochemical characterization of the Pt-N-complex/C indicates that pyrrolic N-type poly-aromatic hydrocarbons were formed in a network structure around the catalysts and prevented them from the methanol oxidation reaction. In a DMFC test at elevated methanol concentrations, the one with the Pt-N-complex/C cathode showed superior stability over the one with the Pt-based cathode, which may offer a solution to the methanol crossover problem in DMFCs.
    显示于类别:[化學工程與材料工程學系暨碩士班] 期刊論文

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