Abstract

The coadsorption of carbon monoxide and hydrogen on polycrystalline rhodium filament has been studied by thermal desorption mass spectrometry. From a series of thermal desorption spectra of CO and H 2 from rhodium as a function of the exposure time to the gas mixture of CO and H 2, it is indicated that there are a single broad peak for CO and three peaks designated as β 1, β 2, β 3 for hydrogen. Thermal desorption of hydrogen is complex. CO and β 1-hydrogen coadsorb on the rhodium surface with their partial pressures in the initial stage of the exposure to the gas mixture and then the β 1 -hydrogen adsorbed on the surface is replaced by CO with the further exposure time. The kinetics for the replacement of β 1-hydrogen by CO may be discussed from the standpoint of the L-H reaction process. The β 2-and β 3-hydrogen are observed with a longer exposure time after the elimination of β 1 -hydrogen. It may be suggested that the β 3-hydrogen peak is attributed to the desorption of hydrogen absorbed in the bulk. The nature of β 2 -hydrogen is also briefly mentioned in possible implications.

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