The kinetic regularities, products, and mechanism of the thermal decomposition of dimethyldioxirane. The contribution of molecular and radical reaction channels

Br2 reaction has been mranued at room temperature in two discharge-tlo\\ \) stems u~ng whrr electron p~mmssneuc rcsommce or laser-induced fluorescence for OH analysis The result is R = (4 12 0.7) x 10-11 cm3 molrcule-1 s-' \_ The measurement of the Br J ield produced in this reaction indicates that

The kinetics and mechanism of the gaseous reaction of vinyl radicals with molecular oxygen have been studied at 296 K. The products formed are HCO and H2C0. The rate constant is 1.0 X 10-r' cm3 molecule-' s-\* and is independent of pressure between 0.4 and 4 Torr.

## Abstract The kinetics of gas‐phase decomposition of methyl isocyanate have been investigated in the range of 427–548°C. Two decomposition routes are followed; the predominant one is a radical‐chain process giving CO, H~2~, and HCN as major products, which has an order of 1.5 and an Arrhenius equ

The kinetics of the gas-phase decomposition of ethyl, isopropyl, and t -butyl isocyanates have been studied in the temperature range of 380-530OC. t -Butyl isocyanate decomposes almost exclusively by a unimolecular route to isobutene and HNCO, but in EtNCO and i - PrNCO this route competes with a fr