Sum frequency generation and density functional studies of CO–H interaction and hydrogen bulk dissolution on Pd(1 1 1)

CO–H interaction and H bulk dissolution on Pd(1 1 1) were studied by sum frequency generation (SFG) vibrational spectroscopy and density functional theory (DFT). The theoretical findings are particularly important to rationalize the experimentally observed mutual site blocking of CO and H and the ef...

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Bibliographic Details
Published in:Surface science 2004-04, Vol.554 (1), p.43-59
Main Authors: Rupprechter, Günther, Morkel, Matthias, Freund, Hans-Joachim, Hirschl, Robin
Format: Article
Language:English
Subjects:
Alkenes
Carbon monoxide
Catalysis
Condensed matter: structure, mechanical and thermal properties
Density functional calculations
Dynamics
vibrations
Exact sciences and technology
Hydrogen molecule
Low index single crystal surfaces
Palladium
Physics
Solid-fluid interfaces
Sum frequency generation
Surface and interface dynamics and vibrations
Surfaces and interfaces
thin films and whiskers (structure and nonelectronic properties)
Vibrations of adsorbed molecules
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Summary:CO–H interaction and H bulk dissolution on Pd(1 1 1) were studied by sum frequency generation (SFG) vibrational spectroscopy and density functional theory (DFT). The theoretical findings are particularly important to rationalize the experimentally observed mutual site blocking of CO and H and the effect of H dissolution on coadsorbate structures. Dissociative hydrogen adsorption on CO-precovered Pd(1 1 1) is impeded due to an activation barrier of ∼2.5 eV for a CO coverage of 0.75 ML, an effect which is maintained down to 0.33 ML CO. Preadsorbed hydrogen prevented CO adsorption at 100 K, while hydrogen was replaced from the surface by CO above 125 K. The temperature-dependent site blocking of hydrogen originates from the onset of hydrogen diffusion into the Pd bulk around 125 K, as shown by SFG and theoretical calculations using various approaches. When Pd(1 1 1) was exposed to 1:1 CO/H 2 mixtures at 100 K, on-top CO was absent in the SFG spectra although hydrogen occupies only threefold hollow sites on Pd(1 1 1). DFT attributes the absence of on-top CO to H atoms diffusing between hollow sites via bridge sites, thereby destabilizing neighboring on-top CO molecules. According to the calculations, the stretching frequency of bridge-bonded CO with a neighboring bridge-bonded hydrogen atom is redshifted by 16 cm −1 when compared to bridging CO on the clean surface. Implications of the observed effects on hydrogenation reactions are discussed and compared to the C 2H 4–H coadsorption system.
ISSN:0039-6028
1879-2758
DOI:10.1016/j.susc.2004.02.008