Article ID Journal Published Year Pages File Type
1516677 Journal of Physics and Chemistry of Solids 2011 7 Pages PDF
Abstract
We evaluated the adsorption of SO3 molecule on Au (1 1 1) surface using first principles calculation by a slab model with a periodic boundary condition. We find that there are six stable adsorption configurations on an Au surface, where the SO3 molecule is adsorbed above the three-fold fcc and hcp hollow sites and on the atop site. In two of these configurations, S and two O atoms are bound to the Au atoms, the next two configurations have all the three O atoms bound to the Au surface atoms, and the last two configurations have the S atom bound to an Au surface atom on the atop site and O atoms situated above the hollow sites. In these configurations, the electronic structures of SO3 on the Au surface show that molecular orbitals of SO3 and those of the Au surface are hybridized in the active metal d-band region, that the localized molecular orbitals in SO3 are stabilized, and that charge is transferred from Au to S 3p by SO3 adsorption on the Au surface though there is little other interaction of the S and O (bound to Au) component with Au. Moreover, the bond between the S and O atoms bound to Au is weakened due to SO3 adsorption on the Au surface due to the charge polarization of the O-Au bond. This interaction is likely to encourage the S-O bond to break.
Related Topics
Physical Sciences and Engineering Materials Science Electronic, Optical and Magnetic Materials
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