標題: Dynamics of reactions O((1)D)+C(6)H(6) and C(6)D(6)
作者: Chen, Hui-Fen
Liang, Chi-Wei
Lin, Jim J.
Lee, Yuan-Pern
Ogilvie, J. F.
Xu, Z. F.
Lin, M. C.
應用化學系
應用化學系分子科學碩博班
Department of Applied Chemistry
Institute of Molecular science
關鍵字: atom-molecule reactions;chemical exchanges;Fourier transform spectra;infrared spectra;isotope effects;molecular beams;organic compounds;oxygen;reaction kinetics;rotational states;vibrational states
公開日期: 7-十一月-2008
摘要: The reaction between O((1)D) and C(6)H(6) (or C(6)D(6)) was investigated with crossed-molecular-beam reactive scattering and time-resolved Fourier-transform infrared spectroscopy. From the crossed-molecular-beam experiments, four product channels were identified. The major channel is the formation of three fragments CO+C(5)H(5)+H; the channels for formation of C(5)H(6)+CO and C(6)H(5)O+H from O((1)D)+C(6)H(6) and OD+C(6)D(5) from O((1)D)+C(6)D(6) are minor. The angular distributions for the formation of CO and H indicate a mechanism involving a long-lived collision complex. Rotationally resolved infrared emission spectra of CO (1 <=upsilon <= 6) and OH (1 <=upsilon <= 3) were recorded with a step-scan Fourier-transform spectrometer. At the earliest applicable period (0-5 mu s), CO shows a rotational distribution corresponding to a temperature of similar to 1480 K for upsilon=1 and 920-700 K for upsilon=2-6, indicating possible involvement of two reaction channels; the vibrational distribution of CO corresponds to a temperature of similar to 5800 K. OH shows a rotational distribution corresponding to a temperature of similar to 650 K for upsilon=1-3 and a vibrational temperature of similar to 4830 K. The branching ratio of [CO]/[OH]=2.1 +/- 0.4 for O((1)D)+C(6)H(6) and [CO]/[OD]>2.9 for O((1)D)+C(6)D(6) is consistent with the expectation for an abstraction reaction. The mechanism of the reaction may be understood from considering the energetics of the intermediate species and transition states calculated at the G2M(CC5) level of theory for the O((1)D)+C(6)H(6) reaction. The experimentally observed branching ratios and deuterium isotope effect are consistent with those predicted from calculations.
URI: http://dx.doi.org/10.1063/1.2994734
http://hdl.handle.net/11536/8156
ISSN: 0021-9606
DOI: 10.1063/1.2994734
期刊: JOURNAL OF CHEMICAL PHYSICS
Volume: 129
Issue: 17
結束頁: 
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