Kinetic studies of the gas-phase reactions of CN with O2 and H2 from 294 to 1000 K

We have extended the highly precise laser photolysis/cw laser-induced fluorescence technique to the study of CN-radical reaction kinetics. We investigated the reaction of CN with O2 over the temperature range 295-7 IO K. The measured reaction-rate coeflicients are well represented over this temperat

The reaction between CzH5 and 0 2 a t 295 K has been studied with a flow reactor sampled by a mass spectrometer. With helium as the carrier gas the rate coefficient was found to increase from (1.2 f 0.3) X cm3/s as [He] was increased from 2 X 10I6 to 3.4 X 1017 The importance of to (3.6 f 0.9) has

The reactions of C1 and Br atoms with HzOz have been studied in the range of 300-350 K using the very-low-pressure-reactor technique. It was found that metathesis to produce HX and H02 is the only significant process (199%). For the reaction of Br 2 Br + HzO2 + HBr + HOz k z (300 K) = 1.3 f 0.45 X a

Absolute rate coefficients for the reaction of CN radicals with methane (k,), ethane (kz) and propane ( kJ) were measured as a function of temperature in a heatable quartz reactor by means of a laser photolysis/laser-induced fluorescence (LP/LIF) technique. CN was generated by 193 nm photolysis of c

Absolute rate coefikients for the reaction of NC0 radicals with NO were measured in the temperature range between 294 and 1260 K and the pressure range between 6 and 170 Torr in a heatable quartz reactor by means of the laser photolysis/laser-induced fluorescence technique. NC0 radicals were produce

## Abstract The kinetics of iodine dioxide (OIO) reactions with nitric oxide (NO), nitrogen dioxide (NO~2~), and molecular chlorine (Cl~2~) are studied in the gas‐phase by cavity ring‐down spectroscopy. The absorption spectrum of OIO is monitored after the laser photodissociation, 266 or 355 nm, of