An HTFFR kinetics study of the reaction between BCl and O2 from 540 to 1670 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

Rate coefficients for the reaction AlCl + CO2 -+ OAlCl + CO have been measured in a huh-temperat~e fast-flow reaetor (HT FFR). These fit the expression k(T) = 2.5 X lo-l2 exp(-7550 K/T) cm3 moleculeW1 s-l. The existence of a large energy barrier for this exothermic reaction is in agreement with that

The gas phase reactivity of Fe(aSDs) with N20 in the temperature range 398-620 K is reported. Iron atoms were produced by the photodissociation of ferrocene and detected by laser-induced fluorescence. The reaction rates of the a 5D s states are very slow and temperature dependent. The bimolecular ra

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

The formation of methyl iodide was determined by radiochemical methods and by massspectroscopic analyses in mixtures of Ar-CH4-12 and Ar-CH4-12-02, heated by a reflected shock wave to temperatures of 830-1150 K. The rate of formation of CH3I was consistent with the chain mechanism where the indicat