Abstract

Picosecond infrared–visible sum-frequency generation (SFG) surface vibrational spectroscopy was applied for insitu monitoring of chemisorbed CO on a polycrystalline platinum foil at room temperature. The dependence of the SFG spectra on the CO gas-phase pressure was investigated in the range pCO=10-8–1000 mbar. From the measured SFG spectra, frequencies of the CO vibrationally resonant contribution were determined as a function of CO pressure. At low CO pressures (10-8–10 mbar) a single vibrational band with center frequency in the range 2091–2099 cm-1 was obtained which is characteristic of stretching vibrations of CO terminally adsorbed on Pt atoms of low-index (100)-, (110)- and (111)-type planes. At higher pressure (pCO50 mbar) the appearance of new “low-frequency’' CO surface species was observed which dominate the SFG spectra at CO pressures above 300 mbar. The low-frequency spectral feature was found to be completely reversible and reproducible with variation of the CO pressure. The pressure-dependent change in the SFG spectra suggests formation of Pt–(CO)2 platinum carbonyl binary complexes at surface structures resulting from a reversible CO adsorbate-induced displacive reconstruction of the Pt substrate at high CO pressures.

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