Flash photolysis resonance fluorescence study of the reaction Cl + O3 → ClO + O2 over the temperature range 213–298 K

A flash photolysis system has been used to study the rate of reaction ( l ) , OH + CHI ---f The temperature It is found that the Arrhenius plot of kl is strongly CHI + H20, using time-resolved resonance absorption to monitor OH. was varied between 300 and 900°K. curved and k, ( T ) can best be rep

The flash photolysis resonance fluorescencc technique has been used to measure the rrtte constant for the rcaction of O(3P) atoms with CION at 10 torr total pressure over the temperature range 225-273 K. The values obtained can be fit to the Arrhenius equation kr = (1.87 f 1.29) X 10-12 exp[ -(692 i

DF-CL studies using NO2 chemiluminescence detection of 0 yielded a rate constant kl for 0 + SiH4 of (2.6 5 0.5) xlO-I3 cm3 s-' at 295 K, where the 95% confidence interval reflects accuracy. FP-RF studies using flash photolysis of SO2 followed by time-resolved vuv fluorescence detection of 0 at 295 K

## Abstract The flash photolysis resonance fluorescence technique has been used to reinvestigate the kinetics of the oxygen atom–oxygen molecule combination reaction. Third‐order rate constants for O~2~, N~2~, and Ar as deactivant molecules were determined over the temperature range of 219–368 K. T

Using the technique of flash photolysis-resonance fluorescence, absolute rate constants have been measured for the reaction H + 0 2 + M 4 HOz + M over a temperature range of 220-360°K. Over this temperature range, the data could be fit to an Arrhenius expression of the following form: The units for