Determination of the composition of gas mixtures and study of chemical reactions using laser induced fluorescence

The exothermic abstraction reactions Ba + R-Cl (R = o-, m-and pC6H4Cl) have been studied using the laser-induced fluorescence method in a beam-gas arrangement. A modified statistical model based on Marcus has been proposed to calculate the distributions of internal energy states of the product molec

CFBr radicals produced by the reaction of atomic oxygen with FzCCFBr were monitored in a discharge flow system by fluorescence excited at 424 nm. The rate coefficients for reactions of the CFBr radicals were measured between 298 and 358 K, and the following values were obtained in units of cm3/molec

## 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),

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

The infrared fluorescence risetimes of the vs C-Cl stretching mode of CHsCl have been measured in CHsCl-raregas mixtures subsequent to laser pumping of the ve methyl deformation vibration with a Q-switched CO2 laser. The rate of rise of this fluorescence was found to be 80 f 8 msec-'/torr in pure CH