Study of methyl methacrylate—acrylamide copolymerization system in cyclohexanone in the absence of conventional radical initiator

Methyl methacrylate (MMA) acrylamide (AA) system was studied in radical conventionally and nonconventionally initiated polymerization reaction with respect to the 'bootstrap' effect using the penultimate model propagation kinetics of vinyl copolymerization. For this, two different methods, the Nelde

## Abstract Initiators for continuous activator regeneration in atom transfer radical polymerization (ICAR ATRP) is a new technique for conducting ATRP. ICAR ATRP has many strong advantages over normal ATRP, such as forming the reductive transition metal species in situ using oxidatively stable tra

## Abstract The variation of copolymerization rate with composition obtained for the system methyl acrylate (1)/methyl methacrylate (2)/benzene/2,2′‐azoisobutyronitrile using standard techniques of polymerization rate measurements has been interpreted on the basis of a penultimate effect upon the p

## Abstract From a phenomenological point of view, the Mayo‐Lewis terminal model can describe both copolymer composition and the variation of copolymerization rate for the ethyl α‐benzoyloxymethylacrylate/methyl methacrylate/benzene/2,2′‐azoisobutyronitrile system.