期刊
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
卷 13, 期 36, 页码 16424-16436出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c1cp21269a
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资金
- Russian Foundation for Basic Research [11-01-00920, 10-08-90035]
- Federal Purpose Program Scientific and science-educational manpower of innovative Russia [2.740.11.0074]
A comparative analysis of predictive ability of three approaches to estimate the rate constants of reactions of H-2, H, H2O and CH4 with electronically excited O-2(a(1)Delta(g)) and O-2(b(1)Sigma(+)(g)) molecules is conducted. The first approach is based on a detailed ab initio study of potential energy surfaces. The second one is known as the bond energy-bond order method, and the third approach is a modification of the updated method of vibronic terms that makes it possible to evaluate the activation energy of reactions involving electronically excited species. The comparison showed that the estimates of the energy barrier by the updated method of vibronic terms for some reactions can be in good agreement with ab initio calculations and available experimental data. It was revealed that reactions of O-2(b(1)Sigma(+)(g)) molecules with H-2, H2O and CH4 molecules and with the H atom result in the formation of electronically excited species. The reactivity of O-2(b(1)Sigma(+)(g)) molecules is smaller than that of O-2(a(1)Delta(g)) ones, but much higher as compared to the reactivity of ground state O-2 molecules. For each reaction under study involving oxygen molecules in the excited electronic states O-2(a(1)Delta(g)) and O-2(b(1)Sigma(+)(g)) the recommended temperature-dependent rate constants are presented.
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