Very low-pressure pyrolysis: VI. The decomposition of ethyl acetate

The kinetics of the unimolecular decomposition of phenyl acetate into phenol and ketene, reaction (1): has been studied under very low-pressure conditions between 950 and 1120 K. In this range alternative processes such as the Fries rearrangement to o-hydroxyacetophenone or bond fission into phenox

The very low-pressure pyrolysis (VLPP) technique has been applied to the pyrolysis of di-t-amyl peroxide (DTAP) over the temperature range 523-633°K. VLPP yields a low-pressure rate constant, kuni The conversion of k,,, to k, , which must be made to calculate the Arrhenius parameters, is accomplishe

## Abstract The thermal unimolecular decomposition of hex‐1‐ene has been investigated over the temperature range of 915–1153 K using the technique of very low‐pressure pyrolysis (VLPP). The reaction proceeds via the competitive pathways of C~3~−C~4~ fission and retro‐ene elimination, with the latte

The thermal unimolecular decomposition of 2-phenylethylamine (PhCHZCHzNH,) into bensyl and aminomethyl radicals has been studied under very-low-pressure conditions, and the enthalpy of formation of the aminomethyl radicals, A H 7 , z p s ~ (HzNCHZ.) = 37.0 f 2.0 kcal/mol, hm been derived from the ki

The kinetics and mechanisms of the unimolecular decompositions of phenyl methyl sulfide (PhSCH,) and benzyl methyl sulfide (PhCHzSCH3) have been studied at very low pressures (VLFP). Both reactions essentially proceed by simple carbon-sulfur bond fission into the stabilized phenylthio (PhS. ) and be

## Abstract The thermal unimolecular reactions of __cis__‐ and __trans__‐penta‐1,3‐diene (__c__‐PTD and __t__‐PTD) have been studied over the temperature range of 1002–1235 K using the technique of very low‐pressure pyrolysis (VLPP). __c__‐PTD decomposes via 1,4‐hydrogen elimination analogous to th