Kinetics of the reaction BrO+NO2+M→BrONO2+M in the temperature range 263–343 K

The termolecular rate constant for the reaction C1 + NO, + M has been measured over the temperature range 264 to 417 K and at pressure 1 to 7 torr in a discharge flow system using atomic chlorine resonance fluorescence at 140 nm to monitor the decay of C1 in an excess of NO,. The results are ky = 9.

Kate constants for the reaction O(3P) + SO2 + M have been determined over the temperature range of 299"-440"K, using a flash photolysis-NO2 chemiluminescence technique. For M=Ar, the Arrhenius expression k2Ar = 3.1 X 10-32e-'2005\*3")'RT cm6/molec2 ~ sec was obtained. A t room temperature kqAr = (1.

The reactions Br + NO2 + M -+ BrNOZ + M (1) and I + NOz have been studied at low pressure (0.6-2.2 torr) at room temperature and with helium as the third body by the discharge-flow technique with EPR and mass spectrometric analysis of t h e species. The following third order rate constants were fou

A laser flash photolysis-long path absorption technique has been employed to study the kinetics of the reaction BrO + NO2 + M Q products as a function of temperature (248-346 K), pressure (16-800 torr), and buffer gas identity (N2, CF4). The reaction is found to be in the falloff regime between thir

The gas-phase reaction of CH(X'II) radicals with molecular nitrogen was studied in the temperature range 298-1059 K at total pressures between 10 and 620 torr. CH radicals were generated by excimer laser photolysis of CHCIBrz at 248 nrn and were detected by laserinduced fluorescence The investigated