Highly branched polyethylene graft copolymers prepared by means of migratory insertion polymerization combined with TEMPO-mediated controlled radical polymerization

Abstract

New families of highly branched polyethylenes containing alkyl short chain branches as well as polar and non-polar long-chain branches were prepared by combining migratory insertion copolymerization with controlled radical graft copolymerization. Key intermediate was a novel alkoxyamine-functionalized 1-alkene which was copolymerized with ethylene using a palladium catalyst. The resulting highly branched polyethylene with alkoxyamine-functionalized short chain branches was used as macroinitiator to initiate controlled radical graft copolymerization of styrene and styrene/acrylonitrile. Novel polyethylene graft copolymers with molecular masses of M̄w > 100000 g/mol and narrow polydispersities were obtained. Transmission electron microscopic studies (TEM) and the presence of two glass transition temperatures at -67 and +100°C indicated microphase separation. © Wiley-VCH Verlag GmbH, 2000.