Photocontrolled cationic degenerate chain transfer polymerizations via thioacetal initiators

Recent developments in photocontrolled polymerizations have facilitated the development of previously inaccessible materials. While photocontrolled radical polymerizations have been extensively studied, related processes involving cationic polymerizations are underexplored and limited to RAFT proces...

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Veröffentlicht in:	Polymer chemistry 2020-10, Vol.11 (40), p.6499-6504
Hauptverfasser:	Sifri, Renee J., Kennedy, Audrey J., Fors, Brett P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cationic polymerization Chain transfer Initiators Photocatalysts Photoredox catalysis Polymer chemistry Polymerization Propagation (polymerization) State reduction Vinyl ethers
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creator	Sifri, Renee J. Kennedy, Audrey J. Fors, Brett P.
description	Recent developments in photocontrolled polymerizations have facilitated the development of previously inaccessible materials. While photocontrolled radical polymerizations have been extensively studied, related processes involving cationic polymerizations are underexplored and limited to RAFT processes. In this study, we disclose a visible light, temporally controlled cationic polymerization of vinyl ethers utilizing thioacetals and a photoredox catalyst. We demonstrate a broad scope of thioacetal initiators that achieve a well-controlled polymerization by recapping propagating chains via photocatalyst turnover in combination with a degenerate chain transfer process through sulfonium intermediates. Furthermore, we show that a photocatalyst with a more reducing ground state reduction potential allows for enhanced control and excellent temporal regulation of polymerization.
doi_str_mv	10.1039/D0PY01100B
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While photocontrolled radical polymerizations have been extensively studied, related processes involving cationic polymerizations are underexplored and limited to RAFT processes. In this study, we disclose a visible light, temporally controlled cationic polymerization of vinyl ethers utilizing thioacetals and a photoredox catalyst. We demonstrate a broad scope of thioacetal initiators that achieve a well-controlled polymerization by recapping propagating chains via photocatalyst turnover in combination with a degenerate chain transfer process through sulfonium intermediates. 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While photocontrolled radical polymerizations have been extensively studied, related processes involving cationic polymerizations are underexplored and limited to RAFT processes. In this study, we disclose a visible light, temporally controlled cationic polymerization of vinyl ethers utilizing thioacetals and a photoredox catalyst. We demonstrate a broad scope of thioacetal initiators that achieve a well-controlled polymerization by recapping propagating chains via photocatalyst turnover in combination with a degenerate chain transfer process through sulfonium intermediates. 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subjects	Cationic polymerization Chain transfer Initiators Photocatalysts Photoredox catalysis Polymer chemistry Polymerization Propagation (polymerization) State reduction Vinyl ethers
title	Photocontrolled cationic degenerate chain transfer polymerizations via thioacetal initiators
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