A comparative theoretical study of the catalytic activities of Au2(-) and AuAg(-) dimers for CO oxidation.

The detailed mechanisms of catalytic CO oxidation over Au 2 - and AuAg- dimers, which represent the simplest models for monometal Au and bimetallic Au-Ag nanoparticles, have been studied by performing density functional theory calculations. It is found that both Au 2 - and AuAg- dimers catalyze the reaction according to the similar mono-center Eley–Rideal mechanism. The catalytic reaction is of the multi-channel and multi-step characteristic, which can proceed along four possible pathways via two or three elementary steps. In AuAg-, the Au site is more active than the Ag site, and the calculated energy barrier values for the rate-determining step of the Au-site catalytic reaction are remarkably smaller than those for both the Ag-site catalytic reaction and the Au 2 - catalytic reaction. The better catalytic activity of bimetallic AuAg- dimer is attributed to the synergistic effect between Au and Ag atom. The present results provide valuable information for understanding the higher catalytic activity of Au-Ag nanoparticles and nanoalloys for low-temperature CO oxidation than either pure metallic catalyst.