Rate coefficient for the reaction between NO3 radicals and dimethyl sulphide

The molecular modulation spectroscopic technique was employed to study the kinetics of NO3 radicals produced in the 253.7 nm photolysis of flowing gas mixtures of HNO3/CH4/O2 at room temperature. By computer fitting of the NO, temporal behavior, a rate coefficient of (2.3 ? 0.7) x lo-'' cm3 molecule

## Abstract The rate coefficient for the reaction of CCl~3~ radicals with ozone has been measured at 303 ± 2 K. The CCl~3~ radicals were generated by the pulsed laser photolysis of carbon tetrachloride at 193 nm. The time profile of CCl~3~ concentration was monitored with a photoionization mass spe

## Abstract Using a relative kinetic technique, rate coefficients have been determined at (298 ± 2) K and atmospheric pressure for the gas‐phase reactions of the NO~3~ radical with three vicinal dihydroxy aromatic compounds. The experiments were carried out in a 1080‐l quartz glass reactor at the B

## Abstract Rate coefficients for the gas‐phase reaction of isoprene with nitrate radicals and with nitrogen dioxide were determined. A Teflon collapsible chamber with solid phase micro extraction (SPME) for sampling and gas chromatography with flame ionization detection (GC/FID) and a glass reacto

The rate constants of the gas phase reaction of OH radicals with dimethyl sulfide (CH3SCH3) over the temperature range 260-393 K have been studied using the discharge flow-resonance fluorescence technique. The rate constants were fitted by the Arrhenius equation k = (11.8 2 2.2) x exp[-(236 2 150)/T

The gas-phase reaction of NO 3 radicals with selected oxiranes has been studied in a flow system at T = 295 + 2 K in the pressure range 3.4-50 mbar using N 2 as carrier gas. The analysis of the organics was performed by means of on-line connected GC-FID. Rate constants were obtained with the relativ