Molecular-beam Infrared Chemiluminescence Study of the Mechanism of CO₂ Formation in Steady-state CO + NO Reaction on Single Crystal Pd Surfaces

Abstract

The infrared chemiluminescence technique was applied to the steady-state CO oxidation by NO on Pd(111) and Pd(110) to measure the internal energy of CO₂ desorbed from surfaces. In this paper, on the basis of the results of CO oxidation by O₂, we elucidate the CO₂ formation mechanism of CO + NO reaction. From the comparison of IR emission spectra of CO₂ between CO + NO and CO + O₂ reactions, it is found that the vibrational energy states of CO₂ in CO + NO reaction are similar to those in CO + O₂ reaction. This indicates that the reaction path of CO₂ formation in CO + NO is the same as that in CO + O₂. The vibrational states are much dependent on the surface structure: the CO₂ molecules produced on flat Pd(111) were highly excited (especially bending mode) than those on Pd(110) which has atomically rough surface.