Study of the recombination of chlorine atoms by flash photolysis

We have studied the recombination of chlorine atoms in the presence of argon over a wide range of ratios [C12]/[Ar]. The recombination of chlorine atoms has not attracted much attention because of detection difficulties, due to the low-absorption cross section of the chlorine molecules and the low d

## Abstract The recombination of bromine atoms at room temperature has been studied by flash photolysis in the range of 1–100 atm of the inert diluent He, leading to a value for the third‐order rate constant of (1.5 ± 0.2) × 10^15^ cm^6^/mol^2^.sec. In the presence of NO the recombination is consid

The recombination of chlorine atoms has been investigated by flash photolysis in the inert gases He, Ne, Ar, Nz, COz, CF4, SiFd, SF6, and C2F6. The pressure dependence of the reaction has been measured between 0.5 and about 100 atm for He, Na, and COZ. Experiments on the NO-catalyzed recombination o

## Abstract A high‐resolution IR diode laser in conjunction with a Herriot multiple reflection flow‐cell has been used to directly determine the rate coefficients for simple alkanes with Cl atoms at room temperature (298 K). The following results were obtained: __k__(Cl + n‐butane) = (1.91 ± 0.10)