Decomposition of chemically activated monochloroethyl radicals

## Abstract Chemically activated acetyl radicals, with an excitation energy of 78 kJ/mole, were formed by the addition of methyl radicals to carbon monoxide. At 273·K the pressure required to stabilize one half of the excited radicals was 500 torr. From measurements of the acetyl radical yield at p

## Abstract The unimolecular decomposition of chemically activated methylallylether (MAE) formed by the cross combination of methoxymethyl and vinyl radicals was studied in the gas phase. The experimentally determined rate constant was found to be 1.11 × 10^8^ sec^−1^ at 9.6°C for the decomposition

I-rrroms rcacr wirh :aeous (CH2= CHCH&Gc IO produce CHz= CHF ~hrou& dicsocijlion of tlw (CH, = CHCH: GeCH~CHI-'CH~ radical. The rapid decomposirion is artriburcd to non-RRK?l bclxwior xirh cxciiarion cncrsy lar& confined to the CH~C'Hl'CH~ side group. The central atoms mass effect found in linear se

The photolyses of ketene (at 313 and 280 nm) and diazirine at 313 nm in the presence of cis-butene-2 were studied. Vibrational relaxation of chemically activated dimethylcyclopropane was shown to occur as a multistep process, and 17 & 4 k,J mot-' was obtained for the average energy transferred per c

The RRKM theory and thz quantumraiation of RRK theory are used to c~lculare the decomposition rate constants of chemically activated CHFzCl and CHF,. The calculated values of the rate constants are compared with cxperimcntal datn. It is shown that the decompositions of CHFS and CHFzCt\* proceed muc

The reaction of CHZ('A1) with 1,1,2,2-tetrafluorocyclopropane was studied at 300 K and a t pressures between 9.0 and 365.0 torr. Chemically activated 1-methyl-2,2,3,3-tetrafluorocyclopropane was formed and two competitive reaction paths, namely decomposition and isomerization, were observed. By fitt