5 research outputs found
On the kinetics of CO oxidation by O2 over RhI(CO)2 catalytic species anchored to a zeolitic support
Rational design of a CO2-resistant toluene hydrogenation catalyst based on FT-IR spectroscopy studies
Formation of a Rhodium Surface Oxide Film in Rh n
The structure of small Rhn (n = 1-10) clusters and corresponding Rh-oxide (RhnOm) clusters (n = 1-4; m = 1-9) supported on a stoi¬chiometric CeO2(111) surface has been investigated using density functional theory correct¬ed for on-site Coulombic interactions (DFT+U) with the goal to identify a realistic model for Rh/CeO2-based CO oxidation catalysts. Rhn clusters on ceria prefer to adopt a three-dimensional morphology. The adsorption of oxygen leads to the reconstruction of such clusters into a two-dimensional Rh-oxide film. The stability of RhnOm species is determined by evaluating the reaction energy for the stepwise oxidation of Rhn, which is to be com¬pared with data for the experimental fresh catalysts. It is found that with increasing cluster size the surface oxide phase becomes increasingly stable against the isolated RhO3 form under oxidative conditions. The Helmholtz free energy change for RhnOm clusters with varying m was determined for the reduction by CO and oxidation by O2. In this way, it was found that Rh-oxide species are more stable than the corresponding pure Rh clusters when supported on CeO2(111). This suggests that the active site for CO oxidation is a Rh surface-oxide