Manganese oxide cluster cations Mnm180n+ were prepared by laser ablation and reacted with hydrogen sulfide (H2S) in a fast flow reactor under thermal collision conditions. A time-of-flight mass spectrometer was use...Manganese oxide cluster cations Mnm180n+ were prepared by laser ablation and reacted with hydrogen sulfide (H2S) in a fast flow reactor under thermal collision conditions. A time-of-flight mass spectrometer was used to detect the cluster distributions before and after the interactions with H2S. The experiments suggest that oxygen-for-sulfur (O/S) ex- change reaction to release water took place in the reactor for most of the manganese oxide cluster cations: MnmlSOn++H2S→Mnm18On-1S++H218O. Density functional theory cal- culations were performed for reaction mechanisms of Mn202++H2S, Mn203++H2S, and Mn204++H2S. The computational results indicate these O/S exchange reactions are both thermodynamically and kinetically favorable, thus in good agreement with the experimental observations. The O/S exchange reactions identified in this gas-phase cluster study parallel similar behavior of related condensed phase reaction systems.展开更多
文摘Manganese oxide cluster cations Mnm180n+ were prepared by laser ablation and reacted with hydrogen sulfide (H2S) in a fast flow reactor under thermal collision conditions. A time-of-flight mass spectrometer was used to detect the cluster distributions before and after the interactions with H2S. The experiments suggest that oxygen-for-sulfur (O/S) ex- change reaction to release water took place in the reactor for most of the manganese oxide cluster cations: MnmlSOn++H2S→Mnm18On-1S++H218O. Density functional theory cal- culations were performed for reaction mechanisms of Mn202++H2S, Mn203++H2S, and Mn204++H2S. The computational results indicate these O/S exchange reactions are both thermodynamically and kinetically favorable, thus in good agreement with the experimental observations. The O/S exchange reactions identified in this gas-phase cluster study parallel similar behavior of related condensed phase reaction systems.
