Thermochemical kinetics of nitrogen compounds. V. The unimolecular thermal decomposition of diallylamine in the gas phase

## Abstract The gas phase thermal decomposition of triallylamine was studied in the temperature range 531 to 620 K. The major products observed in the reaction were propylene and 3‐picoline. The first order rate constants for depletion of triallylamine, obtained using the internal standard techniqu

## Abstract The thermal decomposition of ethylallylether (EAE) has been studied in the gas phase over the temperature range of 560–648°K. Propylene and acetaldehyde are the only reaction products observed. The reaction is apparently homogeneous in nature and independent of the pressure of EAE and o

## Abstract The kinetics of the gas‐phase elimination of benzaldoxime was determined in a static reaction system over the temperature and pressure range 350°C–400°C and 56–140 Torr, respectively. The products obtained were benzonitrile and water. The reaction was found to be homogeneous, unimolecul

## Abstract The thermal decomposition of N‐methyl‐N‐allylaniline in the gas phase over the temperature range 575 to 665 K appears to be a homogeneous radical chain reaction yielding allyl and C~6~H~5~NCH~3~ radicals in the primary step as is indicated by the numerous chain‐terminating radical recom

## Abstract The thermal unimolecular decomposition of hex‐1‐yne has been investigated over the temperature range of 903–1153 K using the technique of very low‐pressure pyrolysis (VLPP). The reaction proceeds via the competitive pathways of C~3~C~4~ fission and molecular retro‐ene decomposition, wi

## Abstract The cyclic sulfenic ester 1,2‐oxathiolane (**1**) decomposes thermally (400 – 450 K) exclusively to give acrolein (**3**) __via__ 3‐mercaptopropanal (**2**) by loss of hydrogen sulfide. Isotopic labelling experiments reveal the presence of a 1,2‐oxathiolane‐thietane 1‐oxide equilibrium