Kinetic study of the reaction OH + HI by laser photolysis-resonance fluorescence

## Abstract The flash photolysis resonance fluorescence technique has been used to measure the rate constant for the reaction equation image over the temperature range of 250–370 K. The present results are in excellent agreement with three very recent studies, and the combined data set can been u

Rate constants for the reaction of OH radicals in a homogeneous gas phase reaction with dhnethyl sulfide have been determined using the flash photolysis resonance fluorescence technique over the temperature range 273400 K. The data (combined with the results of another recent study) can be fit to th

Iser-based clwmicsl kinetics technique has been demonstrated in studies of the reaction of 011 with C2114\_ The rcxtwn mcchnism is dominated by elcctrophtlic addition of OH to the double bond at low temperatures, and by increasing-I\ rApid decomposition of the thcrmalized adduct iiOC2t-l.~ back to r

## Abstract The laser photolysis‐laser‐induced fluorescence method was used for measuring the kinetic parameters of the reaction of OH radicals with CF~3~CH~2~OCH~2~CF~3~ (2,2,2‐trifluoroethyl ether), in the temperature range of 298–365 K. The bimolecular rate coefficient at 298 K, __k__~II~(298),

Absolute rate constant& k, of the reaction OH + HN03 were determined using a puked laser photolyskresonance ab\_ sorption technique\_ The measured value in cm3 mol-' s-l at 230. lolo k(l-16 Torr HN03) = 7.57 + 0.64. k(S00 Torr N2) = 7.20 f 0.66 and k(600 Torr SFe) = 8.37 f 0.45. indimtc that any pre

out that also Cl radicals may play an important role for the chemical transformation of organic substances in marine environments [see, for example, ref. 1 -6]. Cl radicals can be formed through the reaction between HCl and OH [1] or through photolysis of chlorine containing molecules, originating f