A laser-photolysis/lif study of the rate constant for the reaction CH3O + O → products at 298 K

Rate constant ratios of the reactions of CFsO radicals with a number of hydrocarbons have been determiued at 298 + 2 K and atmospheric pressure using a relative rate method. Using a previously determined value k(CF,O+ CsHs) = I .2 x lo-i2 cm3 molecule-' s-i these rate constant mtios,provide estimate

The absolute rate constant for the reaction of N ("S) with CH, has been determined at 298 K in a discharge flow system coupled with collision-free sampling mass spectrometty at low electron energies. The rate constant was determined under pseudo-firstorder conditions with [N] > [ CH,]. The result is

The overall rate coefficient k of the self recombination of BrO radicals has been measured at 298 K with use of the discharge flow/mass spectrometry technique. The rate coefficient kz for the reaction channel forming Bra has been also determined. The results are: k = (3.2 2 0.5) X and kz = (4.7 t 1.

The total rate constant k 1 has been determined at P ϭ 1 Torr nominal pressure (He) and at T ϭ 298 K for the vinyl-methyl cross-radical reaction: (1) CH 3 ϩ C 2 H 3 : Products. The measurements were performed in a discharge flow system coupled with collision-free sampling to a mass spectrometer oper

Absolute rate constants for the reaction of O(3P) atoms with CHI = CHF, CH2 = CHC1, and CH2 = CHBr have been obtained at 298 f 2°K using a modulation phase shift technique. The rate constants ( k z X lo-\* l./mole.sec) obtained are: CH2 = CHF (1.61 =t 0.20), CH2 = CHCl (2.54 + 0.26), and CHZ = CHBr