Flash photolysis studies of the photochemical reactions of CS2 and NH3

The kinetics of the reaction NH2 + NO + N2 f Hz0 were studied, I;sins a conventional flash photolysis system. PI VdUC of k, = (1.1 s 0.2) x 10'0 E mole-' s-1 was obtained at room tempcralure and in the pressure ran\_-2-700 ton in the presence of nitrogen. A slight negative tcmpcrature cocfiicient wa

Rate constants for the reaction of OH radicals with CCS and CS, have been determined at 296 K using the flash photolysis resonance fh~orescen~ technique. The values derived from this study are kOH +mS = (5.66 \* 1.21) X lo-l4 cm3 mokcuk-' s-l a& \_+OH + CS2 = (1 .I35 2 0.34) X lOmu cm3 molecu!e-' s-

## Abstract Kinetic and thermodynamic data for reaction (1) of certain C‐centered aromatic radicals (referred to in this paper by the numbers I to X) in chlorobenzene: equation image have been obtained. The __k__~1~ values of radicals varied between (1.1 ± 0.2) × 10^6^__M__^−1^·sec^−1^ (radical V

The reaction between BrO and HOs radicals: BrO + HO2 +HOBr + O2 ( 1 a) + HBr t 0s ( 1 b) was investigated using flash photolysis with UV absorption detection of the radicals, at 298 K and 760 Torr total pressure. BrO and HO1 radicals were formed in the flash photolysis of Br~/O,/Cl,/CH,OH/O,/He mixt

Rate constants of reaction of cyclopentadienylidene, fluorenylidene and tetrachlorocyclopentadienylidene with alcohols and other quenchers were determined by laser flash photolysis methods. The rate constants of reaction of cyclopentadienylidene and fluorenylidene with various alcohols were determin