This study investigates the effect of the Z-group of RAFT agents on the nucleation step of aqueous RAFT PISA, revealing that the hydrophilicity of the Z-group influences the polymerization rates and chain extension success.
Polymerization-induced self-assembly (PISA) has emerged as one of the most powerful and widely employed techniques for preparation of block copolymer and polymeric nanoparticles in dispersed systems. Its success relies on a rapid, easily scalable and straightforward process, associated with the ability to readily control nanoparticle morphology. In the present work, we have investigated the effect of the Z-group of RAFT agents ZC(=S)-SR on the nucleation step of aqueous RAFT PISA performed in environmentally friendly emulsion polymerization. Seven different poly(acrylic acid) (PAA) and poly(methacrylic acid) (PMAA) macroRAFTs were synthesized using RAFT agents containing Z-groups of different hydrophilicity. Slow polymerizations and incomplete chain extension reactions were observed for systems with the most hydrophilic Z-group, while the more hydrophobic Z groups led to higher polymerization rates and very successful chain extensions. A mechanism based on Z-group induced RAFT exit is proposed to rationalize this surprising behaviour, providing important information on the mechanistic understanding and optimization of PISA in emulsion.
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