Kinetics and mechanism of the thermal chlorination of chloroform in the gas phase

The thermal gas-phase reaction of CF,OF with CCI,CC12 h a s been studied between 313.8 a n d 343 8 K The initial pressure of CF,OF was varied between 10.8 a n d 77.5 torr a n d that of CCI;,CCI, between 3.7 a n d 26 8 torr. CF,OF was always present in excess, varying t h e initial ratio of CF,OF t o

The gas-phase pyrolysis of 3-chloroquadricyclane [1] was investigated over the temperature range 513-550 K at one atm in helium. The initial pyrolysis step is the isomerization of 3-chloroquadricyclane to 7-chloronorbornadiene (E ϭ 39.63 Ϯ 1.40 kcal/mole, a 7-chloronorbornadiene rearranges (623-660

2-Phenylethanol, racemic 1-phenyl-2-propanol, and 2-methyl-1-phenyl-2-propanol have been pyrolyzed in a static system over the temperature range 449.3-490.6ЊC and pressure range 65-198 torr. The decomposition reactions of these alcohols in seasoned vessels are homogeneous, unimolecular, and follow a

The gas-phase elimination kinetics of primary, secondary and tertiary b-hydroxynitriles were examined in static seasoned vessels over the temperature range 360-450 °C and pressure range 47-167 Torr (1 Torr = 133.3 Pa). These reactions are homogeneous, unimolecular and follow a first-order rate law.

DL-Mandelic acid was pyrolyzed in a static reaction vessel over the temperature range 300•1-340•0 °C and pressure range of the substrate 15•2-52•1 Torr. The reaction, in a seasoned vessel and in the presence of the free radical inhibitor cyclohexene, is homogeneous, unimolecular and obeys a first-or