Photoelectron velocity-map imaging spectroscopic and theoretical study on the reactivity of the gold atom toward CH3SH, CH3OH, and H2O

Photoelectron velocity-map imaging spectroscopy has been used to study the reaction of the anionic gold atom with the HR (R = SCH3, OCH3, OH) molecules. The solvated [Au⋯HR]− and inserted [HAuR]− products have been experimentally observed for R = SCH3, whereas only solvated [Au⋯HR]− products were found for R = OCH3 and OH. This significant difference in the photoelectron spectra suggests the different reactivity of the Au− toward the CH3SH, CH3OH, and H2O molecules. Second order Moller–Plesset perturbation theory and coupled-cluster single double triple excitation calculations have been performed to aid the structural assignment of the spectra and to explore the reaction mechanism. Activation energies for the isomerizations of the solvated structures to the inserted ones in the Au−/Au + HR reactions (R = OCH3 and OH) are predicted to be much higher than those for the Au−/Au + CH3SH reactions, supporting the experimental observation. Theoretical calculations provide the evidence that the intriguing [HAuSCH...