Kinetics of CN reactions with O(3P) and SO2

The rate constants for the reaction of CN with NzO and COz have been measured by the laser dissociation/laser-induced fluorescence (two-laser pump-probe) technique at temperatures between 300 and 740 K. The rate of CN + NzO was measurable above 500 K, with a least-squares averaged rate constant, k =

Gas-phase hydrated anions 02H-(H30)n=0-2 are produced by a simple discharge ionization method, and their reactivities are studied in a fast flow reactor at room temperature. Rate constants for the reactions of OzHm and its hydrates with CH,CN, SO\* and CO2 are measured, and reaction mechanisms are p

A laser flash photolysis-resonance fluorescence technique has been employed to study the kinetics of the important stratospheric reactions Cl('P,) + O 3 C10 + O2 and Br('P,,,) + O3 -+ BrO + O2 as a function of temperature, The temperature dependence observed for the Cl('P,) + O3 reaction is nonArrhe

The reactions of CH3 radicals with O(3P) and 0 2 have been studied at 295 K in a gas flow reactor sampled by a mass spectrometer. For the reaction between CH3 and 0, conditions were such that [O] >> [CH3] and the methyl radicals decayed under pseudo-first-order conditions giving a rate coefficient o

## Abstract A nozzle‐beam‐skimmer sampling system is used to measure species concentration profiles for a lean one‐dimensional premixed COO~2~Ar flame, into which small amounts of sulfur dioxide are introduced. The net formation rate for sulfur trioxide is obtained from the flux fraction profile

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.