Improvement of the sputtered platinum utilization in proton exchange membrane fuel cells using plasma-based carbon nanofibres

A. Caillard, C. Charles*, R. Boswell, P. Brault

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review

    25 Citations (Scopus)

    Abstract

    Proton exchange membrane fuel cells are complex nanostructures containing a catalyst (usually platinum), proton and electron conductors and pores. Their electrode performance is strongly influenced by the size, the repartition and the orientation of the nanoseparated materials used and the pores. This paper investigates the electrical performance achieved by three designs of plasma-prepared Pt/C electrodes with low Pt loadings (from 0.01 to 0.1 mg Pt cm-2). A plasma sputtering process was used for the synthesis of Pt nano-clusters in three different microporous supports: a single oriented layer based on aligned carbon nanofibres (CNFs, custom-made by plasma), a single convoluted layer based on Vulcan carbon particles (LT1600, known as a gas diffusion layer - GDL) or a double layer composed of CNFs covering a GDL. Membrane electrode assemblies (MEAs) were prepared by hot-pressing one of these three electrodes with a commercial electrode (0.5 mgPt cm -2) and a commercial Nafion 115 membrane, and compared with a reference MEA (from Electrochem Inc. with a Pt loading per electrode of 0.5 mgPt cm-2 and a maximum power density of 425 mW cm -2). The cathodic Pt utilization efficiency in the best performing plasma-prepared cathode (based on the double layer GDL/CNF) with a Pt loading of 0.1 mgPt cm-2 is 3.6 times higher than that measured for the commercial cathode (3.1 versus ). On the anode side, the three designs of plasma-prepared electrodes with 0.01 mgPt cm-2 lead to similar MEA performance than a commercial electrode at high backpressure (3 bar). At a lower backpressure, the GDL/CNF electrode is the best performing plasma-prepared anode.

    Original languageEnglish
    Article number185307
    JournalJournal Physics D: Applied Physics
    Volume41
    Issue number18
    DOIs
    Publication statusPublished - 21 Sept 2008

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