Revival of Cyclopolymerizable Monomers as Low-Shrinkage Cross-Linkers

Gernot Peer; Markus Kury; Christian Gorsche; Yohann Catel; Philipp Frühwirt; Georg Gescheidt; Norbert Moszner; Robert Liska

doi:10.1021/acs.macromol.0c01551

Revival of Cyclopolymerizable Monomers as Low-Shrinkage Cross-Linkers

Gernot Peer, Markus Kury, Christian Gorsche, Yohann Catel, Philipp Frühwirt, Georg Gescheidt, Norbert Moszner, Robert Liska^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Physikalische und Theoretische Chemie (6350)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Cyclopolymerizable monomers (CPMs) are rarely described as cross-linkers, as their most prominent feature is the ability to form soluble polymer chains. In this study, we design a dimalonate-based CPM and investigate its ability as a low-shrinkage reactive diluent in a commercial resin. It demonstrates high reactivity in radical photopolymerization with significantly reduced volumetric shrinkage and shrinkage stress compared to commercial monomers. The investigated CPM is copolymerizable with conventional methacrylates and yields photopolymers with similar mechanical properties. Additionally, an in-depth evaluation of the propagation step during cyclopolymerization was performed via NMR studies. Considering the low volumetric shrinkage of the CPM-cross-linker, additive manufacturing or dental resins represent highly promising applications.

Originalsprache	englisch
Seiten (von - bis)	8374-8381
Seitenumfang	8
Fachzeitschrift	Macromolecules
Jahrgang	53
Ausgabenummer	19
DOIs	https://doi.org/10.1021/acs.macromol.0c01551
Publikationsstatus	Veröffentlicht - 13 Okt. 2020

ASJC Scopus subject areas

Organische Chemie
Polymere und Kunststoffe
Anorganische Chemie
Werkstoffchemie

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10.1021/acs.macromol.0c01551

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abstract = "Cyclopolymerizable monomers (CPMs) are rarely described as cross-linkers, as their most prominent feature is the ability to form soluble polymer chains. In this study, we design a dimalonate-based CPM and investigate its ability as a low-shrinkage reactive diluent in a commercial resin. It demonstrates high reactivity in radical photopolymerization with significantly reduced volumetric shrinkage and shrinkage stress compared to commercial monomers. The investigated CPM is copolymerizable with conventional methacrylates and yields photopolymers with similar mechanical properties. Additionally, an in-depth evaluation of the propagation step during cyclopolymerization was performed via NMR studies. Considering the low volumetric shrinkage of the CPM-cross-linker, additive manufacturing or dental resins represent highly promising applications.",

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AU - Peer, Gernot

AU - Kury, Markus

AU - Gorsche, Christian

AU - Catel, Yohann

AU - Frühwirt, Philipp

AU - Gescheidt, Georg

AU - Moszner, Norbert

AU - Liska, Robert

PY - 2020/10/13

Y1 - 2020/10/13

N2 - Cyclopolymerizable monomers (CPMs) are rarely described as cross-linkers, as their most prominent feature is the ability to form soluble polymer chains. In this study, we design a dimalonate-based CPM and investigate its ability as a low-shrinkage reactive diluent in a commercial resin. It demonstrates high reactivity in radical photopolymerization with significantly reduced volumetric shrinkage and shrinkage stress compared to commercial monomers. The investigated CPM is copolymerizable with conventional methacrylates and yields photopolymers with similar mechanical properties. Additionally, an in-depth evaluation of the propagation step during cyclopolymerization was performed via NMR studies. Considering the low volumetric shrinkage of the CPM-cross-linker, additive manufacturing or dental resins represent highly promising applications.

AB - Cyclopolymerizable monomers (CPMs) are rarely described as cross-linkers, as their most prominent feature is the ability to form soluble polymer chains. In this study, we design a dimalonate-based CPM and investigate its ability as a low-shrinkage reactive diluent in a commercial resin. It demonstrates high reactivity in radical photopolymerization with significantly reduced volumetric shrinkage and shrinkage stress compared to commercial monomers. The investigated CPM is copolymerizable with conventional methacrylates and yields photopolymers with similar mechanical properties. Additionally, an in-depth evaluation of the propagation step during cyclopolymerization was performed via NMR studies. Considering the low volumetric shrinkage of the CPM-cross-linker, additive manufacturing or dental resins represent highly promising applications.

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Revival of Cyclopolymerizable Monomers as Low-Shrinkage Cross-Linkers

Abstract

ASJC Scopus subject areas

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