Reactions of hot methyl radicals with alkanes

## Abstract The Hg(6^3^__P__~1~) photosensitized decompositions of 3‐methyl‐1‐butene, 2‐methyl‐2‐butene, 3,3‐dimethyl‐1‐butene, and 2,3‐dimethyl‐1‐butene have been used to generate 1‐methylallyl, 1,2‐dimethylallyl, 1,1‐dimethylallyl, and 1,1,2‐trimethylallyl radicals in the gas phase at 24 ± 1°C. F

The reactions of methyl radicals with CC14 and CC13Br have been reinvestigated in the gas phase over a wide range of temperatures and pressures using both the photolysis of acetone and the pyrolysis of di-tertiary butyl peroxide (dtBP) as the methyl radical sources. The results are in essential agre

The kinetics of reactions involving halogen atom abstraction from haloalkanes by methyl radicals have been studied in the gas phase. Arrhenius parameters for halogen atom transfer were determined relative to those for methyl radical combination: (2) ,,A2(L/rnol . s) E,(kcal/mol) CFC1, CF,CCl, CF,C

The photochemistry of isotopically labelled poly(vinylacetophenone) (PVAP) has been investigated, with a view to determining the point of H-atom abstraction from the polymer. Poly(ct-Dvinylacetophenone) (DPVAP) and poly [3.[3 dideuterovinyl(acetophenone) (D2PVAP) were irradiated under high vacuum wi

## Abstract The reaction of hydrogen atoms with diazomethane was used as a source of methyl radicals to study the reaction of oxygen atoms with methyl radicals. This investigation verifies directly the earlier results that formaldehyde is a major product and that the rate constant is greater than 3

The kinetics of H abstraction by methyl and acetyl radicals from poly(vinyl acetophenone) (PVAP) tilms (4 x 10 ~ mm thick) have been investigated, both radicals being derived from the polymer by photolysis (2 > 300 nm) under high vacuum conditions (pressure < 10 a Pa). Differential equations have be