Abstract The adsorption of CO on planar Au/TiO2 model catalysts was studied by polarization-modulation infrared reflection–absorption spectroscopy (PM-IRAS) under catalytically relevant pressure (10–50 mbar) and temperature (30–120 °C) conditions, both in pure CO and in CO/O2 reaction gas mixtures. The adsorption energy of CO on the Au particles was determined by a quantitative analysis of the temperature dependence of the CO absorption intensity in adsorption isobars. The data reveal considerable effects of the Au particle size when pure CO is used; the initial adsorption energy decreases from 74 kJ mol−1 (2 nm mean Au particle diameter) to 62 kJ mol−1 (4 nm). For CO/O2 gas mixtures, the initial CO adsorption energy is, irrespective of the Au particle size, constant at 63 kJ mol−1 (i.e., the CO adsorption energy is reduced for smaller Au particles), but this effect vanishes for larger Au particles.

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