CO interaction with Au atoms adsorbed on terrace, edge and corner sites of the MgO(100) surface. Electronic structure and vibrational analysis from DFT

RICARDO MARIO, FERULLO; FUENTE, SILVIA; PATRICIA GABRIELA, BELELLI; NORBERTO JORGE, CASTELLANI

SURFACE SCIENCE

Elsevier

Año: 2009 vol. 603 p. 1262 - 1269

0039-6028

The interaction of CO with Au atoms adsorbed on terrace and low-coordinates sites (edge and corner) of the MgO(1 0 0) surface was studied using the density functional theory (DFT) in combination with embedded cluster models. Surface anionic (O2) and neutral oxygen vacancy (Fs) sites were considered. In all the cases, the CO stretching frequencies are shifted with respect to free CO with values between 232 and 358 cm-1. In particular, the values for Au on Fs at edge and corner are shifted to higher stretching frequencies by 100 and 59 cm-1, respectively, with respect to the value on a perfect MgO(1 0 0) surface. This result is in agreement with recent scanning tunneling microscopy and infrared spectroscopy experiments where a corresponding shift of 70 cm-1 was observed by comparing the measurements on perfect and O-deficient MgO(1 0 0) surfaces. However, these results are different than expected because Au atoms on Fs centers are negatively charged and, therefore, according to the generally accepted scheme the CO frequency should be red-shifted with respect to the adsorption on anionic fivecoordinated site where the Au atom is essentially neutral. The following picture emerges from the present results: the single occupied HOMO(a) of Au atom on Fs at low-coordinated sites consists in two lobes extended sideward the Au atom. For symmetry reasons, this MO overlaps efficiently with the 2pi* MO of CO. This bonding contribution to the Au–CO link is counteracted by a Pauli repulsion between the 5sigma MO of CO and more internal orbitals (the HOMO-1(alfa) and the HOMO(beta)) centered on Au. In consequence, CO is forced to vibrate against a region with a high electron density. This is the so-called ‘‘wall effect” which by itself contributes to higher CO frequency values.