The Role of Water and Adsorbed Hydroxyls on Ethanol Electrochemistry on Pd: New Mechanism, Active Centers and Energetics for Direct Ethanol Fuel Cell Running in Alkaline Medium

Tian Sheng, Wenfeng Lin, Christopher Hardacre, Peijun Hu

    Research output: Contribution to journalArticlepeer-review

    Abstract

    First principles calculations with molecular dynamics are
    utilized to simulate a simplified electrical double layer formed in the
    active electric potential region during the electrocatalytic oxidation of
    ethanol on Pd electrodes running in an alkaline electrolyte. Our
    simulations provide an atomic level insight into how ethanol oxidation
    occurs in fuel cells: New mechanisms in the presence of the simplified
    electrical double layer are found to be different from the traditional
    ones; through concerted-like dehydrogenation paths, both acetaldehyde
    and acetate are produced in such a way as to avoid a variety of
    intermediates, which is consistent with the experimental data obtained
    from in situ FTIR spectroscopy. Our work shows that adsorbed OH on
    the Pd electrode rather than Pd atoms is the active center for the
    reactions; the dissociation of the C?H bond is facilitated by the
    adsorption of an OH? anion on the surface, resulting in the formation
    of water. Our calculations demonstrate that water dissociation rather than H desorption is the main channel through which
    electrical current is generated on the Pd electrode. The effects of the inner Helmholtz layer and the outer Helmholtz layer are
    decoupled, with only the inner Helmholtz layer being found to have a significant impact on the mechanistics of the reaction. Our
    results provide atomic level insight into the significance of the simplified electrical double layer in electrocatalysis, which may be
    of general importance.
    Original languageEnglish
    Pages (from-to)5762?5772
    JournalThe Journal of Physical Chemistry Part C: Nanomaterials, Interfaces and Hard Matter
    Volume118
    Issue number11
    DOIs
    Publication statusPublished - 17 Feb 2014

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