Immobilization of RAFT agents on silica nanoparticles utilizing an alternative functional group and subsequent surface-initiated RAFT polymerization
2009
Yang, Yingkui | Yang, Zhifang | Zhao, Qiang | Cheng, Xinjian | Tjong, Sie Chin | Li, Robert Kwok Yiu | Wang, Xiaotao | Xie, Xiaolin
Silica-polystyrene core-shell particles were successfully prepared by surface-mediated reversible addition fragmentation chain transfer (RAFT) polymerization of styrene monomer from the surfaces of the silica-supported RAFT agents. Initially, macro-RAFT agents were synthesized by RAFT polymerization of γ-methacryloxypropyltrimethoxysilane (MPS) in the presence of chain transfer agents (CTAs). Immobilization of CTAs onto the silica surfaces was then performed by reacting silica with macro-RAFT agents via a silane coupling. Grafting of polymer onto silica forms core-shell nanostructures and shows a sharp contrast between silica core and polymer shell in the phase composition. The thickness of grafted-polymer shell and the diameter of core-shell particles increase with the increasing ratio of monomer to silica. A control experiment was carried out by conventional free radical emulsion copolymerization of MPS-grafted silica and styrene under comparable conditions. The resulting data provide further insight into the chemical composition of grafted-polymers that are grown from the silica surface through RAFT process.
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