Grafting to Vinylpyrrolidone Polymers and Copolymers by the Ceric lon Method

Abstract

Abstract Polymers and copolymers of vinylpyrrolidone were investigated as grafting substrates for methyl methacrylate using the ceric ion method. Ceric ion readily initiates methyl methacrylate grafting to commercial poly (vinylpyrrolidone) (PVP) of 360,000 nominal molecular weight. The resulting graft copolymer was surprisingly found to be an ABA triblock system with PVP in the center block. This conclusion is supported by three key pieces of evidence: first, selective degradation of the PVP/MMA graft copolymer showed two PMMA grafts per PVP chain: second, blocking of what are apparently hydroxylic or glycolic PVP end groups by reaction with phenyl isocyanate rendered the PVP unreactive to ceric ion grafting; third, if the PVP is prepared by methods which preclude formation of hydroxylic end groups, the PVP is unreactive to ceric ion grafting. Vinylpyrrolidone polymers can be made graftable via ceric ion if N-methacryloyl-D-glucosamine (NMAG) is incorporated as a comonomer in the PVP backbone. Regardless...