Kinetic Study of the CCl 2 Radical Recombination Reaction by Laser-Induced Fluorescence Technique

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

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),

## kr-induced fluoresr~nce excitation spectra in the z--ts phase hate been obtained for CC12 and CFCI r~diczds. The observed spacings in the excitation spectra reported here ngrec well with previous absorption ~orlr in the m3tri\.

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