Wavelength-Selective Photopolymerization of Hybrid Acrylate-Oxetane Liquid Crystals

Davey C. Hoekstra; B.P.A.C. van der Lubbe; A.B.P. (Tom) Bus; Lanti Yang; Nadia Grossiord; Michael G. Debije; Albert P.H.J. Schenning

doi:10.1002/anie.202101322

Wavelength-Selective Photopolymerization of Hybrid Acrylate-Oxetane Liquid Crystals

Davey C. Hoekstra, B.P.A.C. van der Lubbe, A.B.P. (Tom) Bus, Lanti Yang, Nadia Grossiord, Michael G. Debije, Albert P.H.J. Schenning (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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We report on the wavelength-selective photopolymerization of a hybrid acrylate-oxetane cholesteric liquid crystal monomer mixture. By controlling the sequence and rate of the orthogonal free-radical and cationic photopolymerization reactions, it is possible to control the degree of phase separation in the resulting liquid crystal interpenetrating networks. We show that this can be used to tune the reflective color of the structurally colored coatings produced. Conversely, the structural color can be used to monitor the degree of phase separation. Our new photopolymerization procedure allows for structuring liquid crystal networks in three dimensions, which has great potential for fabricating liquid crystal polymer materials with programmable functional properties.

Originele taal-2	Engels
Pagina's (van-tot)	10935-10941
Aantal pagina's	7
Tijdschrift	Angewandte Chemie - International Edition
Volume	60
Nummer van het tijdschrift	19
DOI's	https://doi.org/10.1002/anie.202101322
Status	Gepubliceerd - 3 mei 2021

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title = "Wavelength-Selective Photopolymerization of Hybrid Acrylate-Oxetane Liquid Crystals",

abstract = "We report on the wavelength-selective photopolymerization of a hybrid acrylate-oxetane cholesteric liquid crystal monomer mixture. By controlling the sequence and rate of the orthogonal free-radical and cationic photopolymerization reactions, it is possible to control the degree of phase separation in the resulting liquid crystal interpenetrating networks. We show that this can be used to tune the reflective color of the structurally colored coatings produced. Conversely, the structural color can be used to monitor the degree of phase separation. Our new photopolymerization procedure allows for structuring liquid crystal networks in three dimensions, which has great potential for fabricating liquid crystal polymer materials with programmable functional properties.",

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AU - van der Lubbe, B.P.A.C.

AU - Bus, A.B.P. (Tom)

AU - Yang, Lanti

AU - Grossiord, Nadia

AU - Debije, Michael G.

AU - Schenning, Albert P.H.J.

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AB - We report on the wavelength-selective photopolymerization of a hybrid acrylate-oxetane cholesteric liquid crystal monomer mixture. By controlling the sequence and rate of the orthogonal free-radical and cationic photopolymerization reactions, it is possible to control the degree of phase separation in the resulting liquid crystal interpenetrating networks. We show that this can be used to tune the reflective color of the structurally colored coatings produced. Conversely, the structural color can be used to monitor the degree of phase separation. Our new photopolymerization procedure allows for structuring liquid crystal networks in three dimensions, which has great potential for fabricating liquid crystal polymer materials with programmable functional properties.

KW - cholesteric liquid crystals

KW - in situ characterization

KW - interpenetrating polymer networks

KW - phase separation

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Wavelength-Selective Photopolymerization of Hybrid Acrylate-Oxetane Liquid Crystals

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