Reactions of free radicals with polymers—II: Abstraction reactions of methyl and acetyl radicals with poly(vinyl acetophenone)

The kinetics of hydrogen abstraction by methyl radicals from poly(p-methoxystyrene} have been investigated, methyl radicals being produced by the photolysis ft. = 254 nm) of the polymer under high vacuum. A new differential equation has been derived to describe simultaneous diffusion and reaction of

The kinetics of H abstraction by methyl and tert.butyl radicals from poly(p-tert.butyl styrene) (PTL3) films (5 × 10 3 mm thick) have been investigated at 298 K, both radicals being produced from the polymer by its exposure to short-wave u.v. radiation (2 = 254 nm) at pressures < 10 -4 Pa. Different

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 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

Arrhenius parameters have been determined for the hydrogen-abstraction reactions: R + SiHCI, + RH + SiCl, CF, 323-46 1 5.98 & 0.06 11.77 f 0.03 8.50 CH, 333-443 4.30 f 0.08 10.83 & 0.04 8.48 C,H, 314-413 5.32 & 0.07 11.54 f 0.04 8.63 7 - l h e trend in activation energies ECH, < E c ~H , < ECF, is