Abstract
The reactions of single gold ion Au+ with CO and H2O molecules in gas phase were studied by experiment and calculation. A reaction tube was connected to the end of the jet to destroy the supersonic state of the molecular beam and enhance the collisions between the laser-sputtered metal ions with gas molecules, so as to ensure the equilibrium reaction conditions. The ionic products were analyzed by a time-of-flight mass spectrometer. The collision temperature in reaction tube was calibrated to 409 K by the reaction of Au+ ion and H2O molecules. The contents of ionic products Au(CO)+ and Au(CO)2+ in the reaction of Au+ with CO molecules were monitored under different concentrations of CO in precursor gas. The combination reaction rate constants of single Au + ion sequentially with two CO molecules were determined to be k1 = 1.1 (2) × 10−12 cm3s−1 and k2 = 4.5 (5) × 10−10 cm3s−1. The geometric structures and binding energies of the ionic products, as well as the pathway and rate constants of the reactions were predicted by a high-level ab initial calculation. The binding mode of Au+ and CO and the formation of molecular orbital were discussed.
Published Version
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