
Journal of Physical Chemistry p. 1241 - 1244 (1991)
Update date:2022-08-12
Topics:
Koda, Seiichiro
Endo, Yasuki
Tsuchiya, Soji
Hirota, Eizi
O(3P) atom reactions with ethylene, propylene, and 1-butene were studied by use of kinetic microwave absorption spectroscopy where the atomic oxygen was supplied via ArF excimer laser photolysis of SO2.Time evolutions of vinoxy, HCO, and H2CO were pursued.The fraction of vinoxy production in the propylene and 1-butene reactions at 30 mTorr was found to be 0.29 +/- 0.15 and 0.37 +/- 0.15, respectively.The fractions seemed to increase with decrease in pressure, by comparing the present results with those of several previous researchers.Therefore, at least some part of the vinoxy production fraction is pressure dependent.The reaction scheme explaining the pressure-dependent part is suggested as follows.Initially, a triplet biradical is produced through O(3P) attack to the terminal carbon atom of the C=C double bond, which is then converted to a singlet biradical.Subsequently, a hydrogen atom migrates and then the C-C bond adjacent to the original C=C double bond dissociates to yield the vinoxy and corresponding alkyl radicals.Thus, some part of the vinoxy radical is produced via a quite different mechanism from the case of ethylene reaction, where it is produced via a direct substitution channel on a triplet surface.
View More
Xiamen Kaijia Imp & Exp Co., Ltd.
Contact:86-592-5101177
Address:Room406 Luhui Building No. 65 Haitian Road Huli Xiamen,China.
Dalian Synco Chemical Co., Ltd.
Contact:+86-411-83635150
Address:Rm 1004, 24, Tangshan Street, Dalian
Changzhou Welton Chemical Co., Ltd,
Contact:0086-519-85910828,85920537,85912897
Address:No.8 Jinlong Road, Binjiang Park, Changzhou, Jiangsu, China.
shanghai tuomiao chemicial co.,ltd.
website:https://www.tuomiaochem.com/
Contact:021 - 59853336
Address:shanghai
Contact:+86-22-26358246
Address:601-4-20, Fujiayuan, Tiantai Road, Hebei District, Tianjin, China
Doi:10.1021/cg2013254
(2011)Doi:10.1016/0022-5088(87)90022-1
(1987)Doi:10.1021/acs.joc.5b02137
(2016)Doi:10.1021/jo01287a032
(1967)Doi:10.1039/c4ra10734a
(2014)Doi:10.1134/S0036023610020075
(2010)