Hydrogenation of ethylene and formaldehyde on Pt (111) and Pt 80Fe20 (111): A density-functional study

Robin Hirschl, Andreas Eichler, Juergen Hafner

    Publications: Contribution to journalArticlePeer Reviewed

    Abstract

    In this paper we extend our investigations of selective hydrogenation reactions catalyzed by platinum-iron alloy surfaces from the determination of adsorption energies to the calculation of reaction pathways. Trying to elucidate the experimental fact that over Pt80Fe20 alloy surfaces ?,?-unsaturated aldehydes are selectively hydrogenated to unsaturated alcohols, we determine transition states and reaction rates for the hydrogenation of ethylene and formaldehyde to ethane and methanol, respectively, over pure Pt (111) and PtFe alloy surfaces. In a previous article (R. Hirschl et al., J. Catal. 217 (2003) 354) we argued that only iron atoms in the surface layer can explain the selectivity in hydrogenation. Here we investigate the influence of surface-iron atoms on energy barriers for hydrogenation. While Pt (111) and platinum-covered Pt80Fe20 (111) surfaces behave in a similar way, apart from reduced adsorption energies on the alloy surface, iron atoms in the surface have significant effects for the hydrogenation of formaldehyde. Although the reaction barrier is higher, the ratio of the energy barrier to the adsorption energy is much lower. Top-layer iron atoms do not change the behavior of the surface regarding the hydrogenation of ethylene. Œ 2004 Elsevier Inc. All rights reserved.
    Original languageEnglish
    Pages (from-to)273-282
    Number of pages10
    JournalJournal of Catalysis
    Volume226
    Issue number2
    DOIs
    Publication statusPublished - 2004

    Austrian Fields of Science 2012

    • 1030 Physics, Astronomy

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