Radical polymerization and copolymerization of methyl α-(2-carbomethoxyethyl)acrylate, a dimer of methyl acrylate, as a polymerizable α-substituted acrylate

## Abstract The radical polymerization of a trimer of methyl acrylate was investigated in relation to the __steric hindrance‐assisted polymerization__ of an α‐(substituted methyl)acrylic ester. The trimer can also be regarded as a model of the unsaturated end group formed by the addition‐fragmentat

## Abstract Methyl 2‐(benzyloxymethyl)acrylate (MBZMA) which was synthesized by reaction of methyl 2‐(bromomethyl)acrylate with benzyl alcohol was radically homo‐ and copolymerized. MBZMA polymerized as fast as methyl methacrylate despite of the presence of a large 2‐substituent. The absolute rate

## Abstract The anionic grafting of methyl methacrylate onto several lithium diisopropylamide (LDA) — treated polymers of methyl α‐substituted acrylates containing an active methylene or methine group was investigated. The grafting was carried out using a mole ratio of LDA/acrylate unit of 0.75 in

## Abstract **Summary:** The activation rate parameters of three model compounds for an acrylate/__α__‐olefin atom transfer radical copolymerization were investigated. It appeared that the activation of the model compound for the dormant acrylate chain (methyl‐2‐bromopropionate) was quite fast (__k

## Abstract The use of copper tubing as both the reactor and as a catalyst source is demonstrated for continuous controlled radical polymerization of methyl acrylate at ambient temperature and at low solvent content of 30%. The high surface area provided by the copper walls mediates the reaction vi