A reinvestigation of the temperature dependence of the rate constant for the reaction O + O2 + M O3 + M (for M = O2, N2, and Ar) by the flash photolysis resonance fluorescence technique
Odo Klais; Philip, C. Anderson; Michael, J. Kurylo
International Journal of Chemical Kinetics 12(7): 469-490
1980
ISSN/ISBN: 0538-8066
DOI: 10.1002/kin.550120704
Accession: 061566971
PDF emailed within 0-6 h: $19.90
Related References
Sutherland, J.W.; Michael, J.V.; Klemm, R.B. 1986: Rate constant for the O(3P) + CH4→OH + CH3 reaction obtained by the flash photolysis-shock tube technique over the temperature range 763≤T≤ 1755 K Journal of Physical Chemistry (1952) 90(22): 5941-5945Michael, J.V.; Sutherland, J.W. 1988: Rate constant for the reaction of H with H2O and OH with H2 by the flash photolysis―shock tube technique over the temperature range 1246―2297 K Journal of Physical Chemistry (1952) 92(13): 3853-3857
Craig, A. Taylor; Luying Ding; Paul Marshall 1993: Discharge-flow/chemiluminescence and flash-photolysis/resonance fluorescence studies of the reaction O + SiH4 at room temperature International Journal of Chemical Kinetics 25(3): 183-191
Klemm, R.B.; Davis, D.D. 1973: A flash photolysis resonance fluorescence kinetics study of ground-state sulfur atoms. III. Rate parameters for reaction of S(3 P ) with ethylene episulfide International Journal of Chemical Kinetics 5(1): 149-153
Michael, J.V. 1990: Rate constants for the reaction, H+D2→HD+D, over the temperature range, 724-2061 K, by the flash photolysis-shock tube technique The Journal of Chemical Physics 92(6): 3394-3402
Michael, J.V.; Fisher, J.R. 1990: Rate constants for the reaction D + H2 → HD + H, over the temperature range 655-1979 K, by the flash photolysis-shock tube technique International Conference on Chemical Kinetics 2 94(8): 3318-3323
Michael, J.V. 1989: Rate constants for the reaction O+D2→OD+D by the flash photolysis-shock tube technique over the temperature range 825-2487K: the H2 to D2 isotope effect The Journal of Chemical Physics 90(1): 189-198
Michael, J.V.; Klemm, R.B.; Brobst, W.D.; Bosco, S.R.; Nava, D.F. 1985: Flash photolysis-laser induced fluorescence study of the rate constant for NH2 + O2 between 245 and 459 K Journal of Physical Chemistry 89(15): 3335-3337
Michael, J.V.; Klemm, R.B.; Brobst, W.D.; Bosco, S.R.; Nava, D.F. 1985: Flash photolysis-laser induced fluorescence study ofthe rate constant for NH2+O2 between 245 and 459 K Journal of Physical Chemistry (1952) 89(15): 3335-3337
Takming, C.H.I.U.; Siemiarczuk, A.; King Wong, S.; Bolton, J.R. 1985: Time resolution enhancement technique applied to a study of the absolute rate of reaction of ketyl radicals with a spin trap using flash photolysis electron paramagnetic resonance Journal of Physical Chemistry (1952) 89(15): 3343-3347
Michael, J. Kurylo; Jennifer, L. Murphy; Geoffrey, S. Haller; Kenneth, D. Cornett 1982: A flash photolysis resonance fluorescence investigation of the reaction OH + H2O2 HO2 + H2O International Journal of Chemical Kinetics 14(10): 1149-1161
Hickson, K.M.; Keyser, L.F.; Sander, S.P. 2007: Temperature dependence of the HO2 + ClO reaction. 2. Reaction kinetics using the discharge-flow resonance-fluorescence technique Journal of Physical Chemistry. a 111(33): 8126-8138
Rabinowitz, M.J.; Sutherland, J.W.; Patterson, P.M.; Klemm, R.B. 1991: Direct rate constant measurements for H + CH4 → CH3 + H2, 897-1729 K, using the flash photolysis-shock tube technique Journal of Physical Chemistry (1952) 95(2): 674-681
Sutherland, J.W.; Michael, J.V. 1988: The kinetics and thermodynamics of the reaction H+NH3⇄NH2+H2 by the flash pyrolysis-shock tube technique: determination of the equilibrium constant, the rate constant for the back reaction, and the enthalpy of formation of the amidogen radical The Journal of Chemical Physics 88(2): 830-834
Wong, W.; Davis, D.D. 1974: A flash photolysis-resonance fluorescence study of the reaction of atomic hydrogen with molecular oxygen H + O2 + M HO2 + M International Journal of Chemical Kinetics 6(3): 401-416