A Charge‐Transfer Complex of Thioxanthonephenacyl Sulfonium Salt as a Visible‐Light Photoinitiator for Free Radical and Cationic Polymerizations

A new double chromophoric sulfonium salt photoinitiator possessing both thioxanthone and phenacyl groups, namely 2‐isopropylthioxanthonium phenacyl hexafluoroantimonate (ITXPhenS), was synthesized and characterized. ITXPhenS can form a charge‐transfer complex (CTC) with the donor N,N‐dimethyl anilin...

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Veröffentlicht in:	ChemPhotoChem 2019-11, Vol.3 (11), p.1187-1192
Hauptverfasser:	Kaya, Kerem, Kreutzer, Johannes, Yagci, Yusuf
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Sprache:	eng
Schlagworte:	charge transfer cyclic voltammetry density functional calculations photochemistry polymerization
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creator	Kaya, Kerem Kreutzer, Johannes Yagci, Yusuf
description	A new double chromophoric sulfonium salt photoinitiator possessing both thioxanthone and phenacyl groups, namely 2‐isopropylthioxanthonium phenacyl hexafluoroantimonate (ITXPhenS), was synthesized and characterized. ITXPhenS can form a charge‐transfer complex (CTC) with the donor N,N‐dimethyl aniline (DMA) with absorption characteristics in the visible range as confirmed by spectral analysis, cyclic voltammetry (CV) and density functional theory (DFT). The extension of the absorbance shift can be controlled by the ITXPhenS to DMA ratio. The ability of the CTC to initiate free radical and cationic polymerization reactions of various monomers under visible and natural sunlight is demonstrated. The proposed mechanism assumes the generation of radical and ionic species by the heterolytic and/or homolytic cleavage of ITXPhenS within the CTC followed by electron‐transfer reactions. Ready, set, go! A new double chromophoric sulfonium salt photoinitiator which can form a charge‐transfer complex with N,N‐dimethylaniline was synthesized. The photoinitiator exhibited high activity in both radical and cationic polymerizations.
doi_str_mv	10.1002/cptc.201800217
format	Article
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ITXPhenS can form a charge‐transfer complex (CTC) with the donor N,N‐dimethyl aniline (DMA) with absorption characteristics in the visible range as confirmed by spectral analysis, cyclic voltammetry (CV) and density functional theory (DFT). The extension of the absorbance shift can be controlled by the ITXPhenS to DMA ratio. The ability of the CTC to initiate free radical and cationic polymerization reactions of various monomers under visible and natural sunlight is demonstrated. The proposed mechanism assumes the generation of radical and ionic species by the heterolytic and/or homolytic cleavage of ITXPhenS within the CTC followed by electron‐transfer reactions. Ready, set, go! A new double chromophoric sulfonium salt photoinitiator which can form a charge‐transfer complex with N,N‐dimethylaniline was synthesized. 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ITXPhenS can form a charge‐transfer complex (CTC) with the donor N,N‐dimethyl aniline (DMA) with absorption characteristics in the visible range as confirmed by spectral analysis, cyclic voltammetry (CV) and density functional theory (DFT). The extension of the absorbance shift can be controlled by the ITXPhenS to DMA ratio. The ability of the CTC to initiate free radical and cationic polymerization reactions of various monomers under visible and natural sunlight is demonstrated. The proposed mechanism assumes the generation of radical and ionic species by the heterolytic and/or homolytic cleavage of ITXPhenS within the CTC followed by electron‐transfer reactions. Ready, set, go! A new double chromophoric sulfonium salt photoinitiator which can form a charge‐transfer complex with N,N‐dimethylaniline was synthesized. 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ITXPhenS can form a charge‐transfer complex (CTC) with the donor N,N‐dimethyl aniline (DMA) with absorption characteristics in the visible range as confirmed by spectral analysis, cyclic voltammetry (CV) and density functional theory (DFT). The extension of the absorbance shift can be controlled by the ITXPhenS to DMA ratio. The ability of the CTC to initiate free radical and cationic polymerization reactions of various monomers under visible and natural sunlight is demonstrated. The proposed mechanism assumes the generation of radical and ionic species by the heterolytic and/or homolytic cleavage of ITXPhenS within the CTC followed by electron‐transfer reactions. Ready, set, go! A new double chromophoric sulfonium salt photoinitiator which can form a charge‐transfer complex with N,N‐dimethylaniline was synthesized. 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subjects	charge transfer cyclic voltammetry density functional calculations photochemistry polymerization
title	A Charge‐Transfer Complex of Thioxanthonephenacyl Sulfonium Salt as a Visible‐Light Photoinitiator for Free Radical and Cationic Polymerizations
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