Abstract
The coadsorption of hydrogen and CO on the ordered Cu 3Pt(111) surface has been studied using low energy electron diffraction (LEED), thermal desorption spectroscopy (TDS), UV-photoelectron spectroscopy (UPS), and high resolution electron energy loss spectroscopy (HREELS). The main feature of the ordered Cu 3Pt(111) surface is a 2 × 2 structure of the Pt atoms in the surface, hence, Pt atoms are completely surrounded by Cu atoms. At temperatures above 180 K CO adsorbs on top of the Pt atoms. A constant hydrogen desorption temperature regardless of the CO pre-coverage in TDS indicates a repulsive CO-H interaction. In this case the HREEL spectra of the CO are not different from the spectra of CO on the clean surface. Dosing CO on a hydrogen saturated surface at 130 K leads to a shift of the hydrogen TD spectra to lower temperatures. Eventually this shift will stop accompanied by the occurrence of a new higher coordination CO adsorption state (HREELS) that has not been found on the clean surface. The experiments suggest a short-range repulsive interaction between hydrogen and CO on the ordered Cu 3Pt(111) surface.
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