Fourier transform IR product study of the reaction of CFO radicals with O2 at 298 K

Fourier transform infrared spectroscopy was used to identify and quantify products of the self reaction of ethylperoxy radicals, C2H502, formed in the photolysis of C12/C2H6 mixtures in 700 torr total pressure of synthetic air a t 295 K . From these measurements, branching ratios for the reaction ch

The molecular-modulation-UV/visibleabsorption+ectroscopy technique has been used to investigate the simultaneous time. resolved behaviour of10 and HO2 produced by the pbotolysis of O3 in the presence of CH30H, Iz, O2 and Ar. This has enabled a direct measurement of the rate coefficient for the react

A low-pressure discharge-flow system equipped with laser-induced fluorescence (LIF) detection of NO 2 and resonance-fluorescence detection of OH has been employed to study the self reactions CH 2 ClO 2 ϩ CH 2 ClO 2 : products (1) and CHCl 2 O 2 ϩ CHCl 2 O 2 : products (2), at T ϭ 298 K and P ϭ 1-3 T

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

Fourier transform infrared spectroscopy was used to identify and quantify products of the self-reaction of chloroethylperoxy radicals, CH2C1CH20z, formed in the photolysis of Cl&H4 mixtures in 700 Torr total pressure of synthetic air at 295 K. From these measurements, branching ratios for the reacti

Rate constants for the reactions of 0 3 and OH radicals with furan and thiophene have been determined at 298 f 2 K. The rate constants obtained for the 0 3 reactions were (2.42 f 0.28) X 1O-lS cm3/molec.s for furan and <6 X cm3/molec-s for thiophene. The rate constants for the OH radical reactions,