Abstract
Plane-wave pseudopotential Density Functional Theory (DFT) periodic slab calculations have been performed to investigate carbon monoxide adsorption on the (1 1 1) surface of Cu 2O. Negligible relaxation of this surface was found (surface energy = 0.71 J m −2), consistent with its non-polar nature. The on-top-Cu site of CO adsorption is favoured, with a binding energy of 1.50 eV. After adsorption, the Cu–C bond distance was found to be 1.82 Å and that of C–O was 1.15 Å. From the Density of States (DOS) plots, a distinct stabilization of both the Cu 3d and CO 5σ is observed with predominant back-bonding to CO 2π* from Cu. A red shift of −26 cm −1 in the C–O stretch was found in good agreement with experimental results.
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