Some comments on kinetics and mechanism in the pyrolysis of monosilane

## Abstract The rate of the inhibited pyrolysis of pentachloroethane was studiedover the temperature range of 820 to 865°K using the toluene‐carrier technique in a stirred‐flow reactor. The pyrolysis rate was found to be first order in reactant, and the rate constant is described by __k__=10^11.6±0

The kinetics of the gas phase pyrolysis of dimethyl sulfide (DMS) was studied in a static system a t 681-723 K by monitoring total pressure-time behavior. Analysis showed the pressure increase to follow DMS loss. The reaction follows two concurrent paths: ## Me2S C2H4 + H2S --% CH, + CHzS with a

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 pyrolysis of methyl 4-hromocrotonate in the temperature range 300-340°C and pressure range 74-170 torr has been shown to he homogeneous, unimolecular, and to follow a first-order rate law. The reaction was carried out in a static system, seasoned with ally1 bromide, and in the presence of the ra