Abstract: | Absolute rate constants and some of their Arrhenius parameters are reported for the addition of the 1‐(tert‐butoxy)carbonyl]ethyl radical (MeC . HCO2Me3) to several mono‐ or 1,1‐disubstituted alkenes in acetonitrile as obtained by time‐resolved electron spin resonance spectroscopy. At 295 K, the rate constants range from 470 M −1 s−1 (but‐1‐ene) to 2.4⋅105 M −1 s−1 (1,1‐diphenylethene), the experimental activation energies range from 26.8 kJ/mol (but‐1‐ene) to 14.7 kJ/mol (styrene), and the frequency factors obey on the average log (A/M −1 s−1)=7.9±0.5. The rate constants of the secondary 1‐(tert‐butoxy)carbonyl]ethyl radical are close to the geometric mean of those of the related primary (tert‐butoxy)carbonyl]methyl and the tertiary 2‐(methoxycarbonyl)propan‐2‐yl radicals. The activation energies for addition of these three carboxy‐substituted alkyl radicals are mainly governed by the addition enthalpy but are also substantially lowered by ambiphilic polar effects. The results support a previously derived predictive analysis, and relations to rate constants of acrylate polymerizations are discussed. |