Kinetics of the thermal gas phase isomerization of bicyclo[4.1.0]heptane

## Abstract The kinetics of the gas‐phase decomposition of 1,2‐epoxycyclohexane has been studied over the temperature range 680–740 K at pressures between 1.6 and 6 torr. Isomerization to cyclohexanone and 2‐cyclohexen‐1‐ol accounts for ca. 97% of the primary reaction products and occurs by first‐o

The gas-phase thermal isomerization of hexachlorocyclopropane to hexachloropropene at 208-283OC is first order and unaffected by changes in the surface-to-volume ratio or by the addition of iodine, tetrachloroethylene, and oxygen. The first-order rate constants fit the Arrhenius equation log k(s-')

The gas phase thermal isomerization of 4-acetyl-5-methyl-isoxazole affords 3-cyano-2,4-pentanedione as the only product in good agreement with previous proposed isomerization mechanism for isoxazoles. On the other hand, kinetic parameters and MO theoretical calculations do not agree with those previ

## Abstract Rate constants for the unimolecular thermal isomerization of gaseous 1,1‐dimethylcyclopropane to isomeric methylbutenes have been measured, and Arrhenius parameters determined, over a wide temperature range, 683–1132 K, using a single‐pulse shock tube and a static reactor. For the overa

The reversible thermal gas-phase dimerization of hexafluoropropene to the four isomeric cyclobutanes has been studied by pressure change and by gasliquid chromatographic analysis in the temperature range of 645-708 K with initial pressures of olefin from 802 to 4820 mm Hg. The reaction was accuratel

## Abstract The Arrhenius parameters for the gas phase, unimolecular structural isomerizations of 1,1,2‐trimethylcyclopropane to three isomeric methylpentenes and two dimethylbutenes have been determined over a wide range of temperatures, 688–1124 K, using both static and shock tube reactors. For t