The extrinsic precursor kinetics of molecular methane adsorption onto Pt(1 1 1)-p(2×2)-O, - n-butylidyne, and -isobutylidyne

The kinetics of methane trapping on Pt(1 1 1)-p(2×2)-O, - n-butylidyne, and -isobutylidyne were investigated using supersonic molecular beam techniques at surface temperatures between 30 and 84 K. The adsorption behavior was described by a model in which adsorption was forced through an extrinsic pr...

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Bibliographic Details
Published in:Surface science 2001-05, Vol.479 (1), p.98-108
Main Authors: Carlsson, A.F., Madix, R.J.
Format: Article
Language:English
Subjects:
Adsorption kinetics
Alkanes
Alkynes
Chemistry
Diffusion and migration
Exact sciences and technology
General and physical chemistry
Oxygen
Physical adsorption
Platinum
Solid-gas interface
Sticking
Surface diffusion
Surface physical chemistry
Thermal desorption
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Summary:The kinetics of methane trapping on Pt(1 1 1)-p(2×2)-O, - n-butylidyne, and -isobutylidyne were investigated using supersonic molecular beam techniques at surface temperatures between 30 and 84 K. The adsorption behavior was described by a model in which adsorption was forced through an extrinsic precursor. The temperature dependence of the initial adsorption probability suggests that the difference in activation energies for desorption and migration from the extrinsic precursor, E ′ d− E m ′, depends on the geometry and structure of the adsorbate covering the surface. The activation energy for migration of the extrinsic precursor to a binding site is greatest on the n-butylidyne-covered surface, followed by the isobutylidyne- and the oxygen-covered surfaces, respectively. The high activation energy for reconversion to the extrinsic precursor observed for the extrinsic precursor is consistent with the corrugated gas-surface potential measured in trapping dynamics experiments.
ISSN:0039-6028
1879-2758
DOI:10.1016/S0039-6028(01)00960-8