Kinetics of the self-reaction and the reaction with OH of the amidogen radical

For the 'title reaction, the pressure dependent rate coefficients were studied at 298 K using two complementary experimental techniques. Pulse radiolysis combined with UV absorption was employed at pressures between 500 and 1000 mbar, while a fast-flow system with a quadrupole mass spectrometer (at

## Ahtract This article describes the first direct determination of the rate coefficient for the self-reaction between two NO3 radicals. A laser photolysis technique was used to generate NO3, and timeresolved decays of NO3 were followed after stopping the photolysis. The products of the reaction a

## Abstract Using a relative rate method, rate constants have been measured at 296 ± 2 K for the gas‐phase reactions of OH radicals with 1,2‐butanediol, 2,3‐butanediol, 1,3‐butanediol, and 2‐methyl‐2,4‐pentanediol, with rate constants (in units of 10^−12^ cm^3^ molecule^−1^ s^−1^) of 27.0 ± 5.6, 23

The rate constant of the reaction of OH with DMS has been measured relative to OH + ethene in a 420 1 reaction chamber a t 760 torr total pressure and 298 t 3 K in N L + 0, buffer gas using the 254 nm photolysis of H202 as the OH source. In agreement with a recent absolute rate determination of the

The rate constant for the self-reaction of the peroxyl radical derived from methanol, HOCH,OO', has been measured over the temperature range 5-53°C. The radical has a maximum absorptivity of 970 I! mol-' cm-' at 240 nm and an absorptivity of about 510 P mol-' cm-' at 280 nm. From a modified Arrheniu

The rate constant for the reaction of OH radicals with pinonaldehyde has been measured at 293 Ϯ 6 K using the relative rate method in the laboratory in Wuppertal (Germany) using photolytic sources for the production of OH radicals and in the EUPHORE smog chamber facility in Valencia (Spain) using th