Kinetics of the gas-phase elimination of isopropyl α-substituted acetates

## Abstract The gas‐phase pyrolysis of three secondary acetates in the temperature range of 290‐350°C and the pressure range of 40‐236 mm Hg reveals a homogeneous first‐order law and unimolecular elimination. The rate constants are given by the following Arrhenius equations: isopropyl fluoroacetate

## Abstract The kinetics of gas‐phase elimination of 3‐methyl‐1‐butyl acetate and 3,3‐dimethyl‐1‐butyl acetate into acetic acid and the corresponding substituted butenes have been measured over the temperature range of 360–420°C and the pressure range of 63–250 Torr. The reactions are homogeneous i

## Abstract The gas‐phase eliminations of several __tert__‐butyl esters, in a static system and in vessels seasoned with allyl bromide, have been studied in the temperature range of 171.5–280.1°C and the pressure range of 23–98 torr. The rate coefficients for the homogeneous unimolecular eliminatio

The rates of elimination of seven cycloalkyl acetates containing between 5 and 15 ring carbons have been determined in a static system over a temperature range 280-370°C and a pressure range 35-234 torr. The unimolecular reactions, carried out in the presence of the inhibitor cyclohexene, are homoge

The gas phase elimination kinetics of the title compound was studied over the temperature range of 260.1-315.0ЊC and pressure range of 20-70 Torr. This elimination, in seasoned static reaction system and in the presence of at least fourfold of the free radical inhibitor toluene, is homogeneous, unim

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.