Theoretical study of the mechanism for the gas-phase pyrolysis kinetics of 2-methylbenzyl chloride

The mechanism and kinetics for the decomposition of ␤-hydroxypropaldehyde, primary and secondary ␤-hydroxyketones, were studied by using ab initio RHFr6-31G and RHFr6-31G\* methods. The activation barriers of these reactions were refined to be 39.57, 40.10, and 36.80 kcal mol y1 at the MP2rrRHFr6-31

The gas phase pyrolysis of 1,1,1,2-tetrachloropropane was studied in a ,static system and seasoned vessel over the temperature range of 393.0-452.8"C and pressure range of 27.5-1 18.5 torr. The reaction is homogeneous, unimolecular, follows a first-order rate law, and is not affected by the presence

The gas-phase pyrolysis kinetics of primary, secondary and tertiary 2-phenoxycarboxylic acids were studied over the temperature range 240.1-409.9 °C and pressure range 16.3-67.8 Torr. The elimination reactions, carried out in seasoned vessels and in the presence of the free radical chain inhibitor c

The pyrolysis of C,CI, has been studied between 652 and 735 K at pressures ranging from 19 to 50 torr. The observed total pressure-and CI, pressure-time curves show S-shapes with an induction period depending on temperature and pressure Further, the total pressure goes through a maximum to finally r

## Abstract Various ONIOM combinations—ONIOM(HF/6‐31G\*: PM3), ONIOM(B3LYP/6‐31G\*: PM3), ONIOM(MP2/6‐31G\*: PM3), and ONIOM(MP2/6‐31G\*: HF/3‐21G)—were applied to investigate thermal decomposition mechanisms of four 2‐phenoxycarboxylic acids (2‐phenoxyacetic acid, 2‐phenoxypropionic acid, 2‐phenox

## Abstract The rates of pyrolysis of 4‐chloro‐2‐butanone in the gas phase have been determined in a static system seasoned with the products of decomposition of allyl bromide. The reaction is catalyzed by hydrogen chloride. Under maximum catalysis of HCl, the kinetics were found to be of order 1.5