The Effect of Hydrophile Topology in RAFT-Mediated Polymerization-Induced Self-Assembly

Polymerization‐induced self‐assembly (PISA) was employed to compare the self‐assembly of different amphiphilic block copolymers. They were obtained by emulsion polymerization of styrene in water using hydrophilic poly(N‐acryloylmorpholine) (PNAM)‐based macromolecular RAFT agents with different struc...

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Veröffentlicht in:	Angewandte Chemie International Edition 2016-03, Vol.55 (11), p.3739-3743
Hauptverfasser:	Lesage de la Haye, Jennifer, Zhang, Xuewei, Chaduc, Isabelle, Brunel, Fabrice, Lansalot, Muriel, D'Agosto, Franck
Format:	Artikel
Sprache:	eng
Schlagworte:	amphiphiles Backbone Block copolymers Chains (polymeric) Chemical Sciences Copolymers Emulsion polymerization Ethylene glycol Hydrophobicity Macromolecules nanoparticles Nanostructure Polyethylene glycol Polymerization Polystyrene Polystyrene resins RAFT polymerization Self-assembly Styrene Topology Vesicles water
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creator	Lesage de la Haye, Jennifer Zhang, Xuewei Chaduc, Isabelle Brunel, Fabrice Lansalot, Muriel D'Agosto, Franck
description	Polymerization‐induced self‐assembly (PISA) was employed to compare the self‐assembly of different amphiphilic block copolymers. They were obtained by emulsion polymerization of styrene in water using hydrophilic poly(N‐acryloylmorpholine) (PNAM)‐based macromolecular RAFT agents with different structures. An average of three poly (ethylene glycol acrylate) (PEGA) units were introduced either at the beginning, statistically, or at the end of a PNAM backbone, resulting in formation of nanometric vesicles and spheres from the two former macroRAFT architectures, and large vesicles from the latter. Compared to the spheres obtained with a pure PNAM macroRAFT agent, composite macroRAFT architectures promoted a dramatic morphological change. The change was induced by the presence of PEGA hydrophilic side‐chains close to the hydrophobic polystyrene segment. An average of three PEGA units were introduced either at the beginning, statistically, or at the end of a hydrophilic segment, resulting in formation of various block copolymer morphologies. Key: a) Same hydrophilic comonomers; b) various hydrophilic macroRAFTs; c) different particle morphologies (spheres, nanovesicles, large vesicles), N‐acryloyl morpholine (• (blue)), PEG acrylate (•••• (green)).
doi_str_mv	10.1002/anie.201511159
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Chem. Int. Ed</addtitle><description>Polymerization‐induced self‐assembly (PISA) was employed to compare the self‐assembly of different amphiphilic block copolymers. They were obtained by emulsion polymerization of styrene in water using hydrophilic poly(N‐acryloylmorpholine) (PNAM)‐based macromolecular RAFT agents with different structures. An average of three poly (ethylene glycol acrylate) (PEGA) units were introduced either at the beginning, statistically, or at the end of a PNAM backbone, resulting in formation of nanometric vesicles and spheres from the two former macroRAFT architectures, and large vesicles from the latter. Compared to the spheres obtained with a pure PNAM macroRAFT agent, composite macroRAFT architectures promoted a dramatic morphological change. The change was induced by the presence of PEGA hydrophilic side‐chains close to the hydrophobic polystyrene segment. 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subjects	amphiphiles Backbone Block copolymers Chains (polymeric) Chemical Sciences Copolymers Emulsion polymerization Ethylene glycol Hydrophobicity Macromolecules nanoparticles Nanostructure Polyethylene glycol Polymerization Polystyrene Polystyrene resins RAFT polymerization Self-assembly Styrene Topology Vesicles water
title	The Effect of Hydrophile Topology in RAFT-Mediated Polymerization-Induced Self-Assembly
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