Rate coefficient for the H atom reaction with acrylate monomers in aqueous solution

## Abstract The hydrated electron (e^−^~aq~) and hydroxyl radical rate constants with 18 acrylate‐, methacrylate‐, crotonate‐, fumarate‐ and maleate esters are discussed. The constants approach the diffusion‐controlled limit. __k__(e^−^~aq~) and __k__(OH) change in opposite direction; if __k__(e^−^

## Abstract In acrylate polymerizations both SPRs and tertiary MCRs occur. Via pulsed laser polymerization, using a wide range of LPRRs, in conjunction with aqueous‐phase size‐exclusion chromatography, the polymerization of 1.35 mol · L^−1^ acrylic acid in aqueous solution has been investigated at

Rate coefficients have been measured for the reactions of Cl atoms with methanol (k 1 ) and acetaldehyde (k 2 ) using both absolute (laser photolysis with resonance fluorescence) and relative rate methods at 295 Ϯ 2 K. The measured rate coefficients were (units of 10 Ϫ11 cm 3 molecule Ϫ1 s Ϫ1 ): abs

The thermochemical kinetics formulation of conventional transition state theory has been applied to metathesis reactions of H atoms with a series of alkanes in order to provide a sound framework for the intercomparison of experimental data, and also to extrapolate rate coefficients to temperature re