Issue 20, 2016

Development of novel bistolane-based liquid crystalline molecules with an alkylsulfanyl group for highly birefringent materials

Abstract

In order to generate high-birefringence liquid crystal (LC) materials, the introduction of highly polarisable groups into the terminal positions of the mesogen represents one of the most important design strategies. Even though the alkylsulfanyl group is a potentially interesting option for this purpose, it has so far been very difficult to obtain enantiotropic mesophases for LCs containing this group. Herein, we report novel high-birefringence LC molecules based on 1,4-bis(2-phenylethynyl)benzene (bistolane) with alkylsulfanyl groups in the terminal positions. The incorporation of a fluorine atom into the central benzene ring of an alkylsulfanyl-substituted bistolane led to the formation of a well-defined enantiotropic nematic phase. In contrast, the nonfluorinated analogue with alkylsulfanyl groups did not exhibit a mesophase. In comparison with an alkoxy-substituted derivative, the birefringence of the alkylsulfanyl-substituted analog was substantially higher (Δn = 0.42 at 550 nm). Furthermore, the birefringence properties of the alkylsulfanyl-substituted derivative were observed to be proportional to the order parameter and largely temperature-dependent over the entire temperature range. These results thus provide not only fundamental insights into structure–reactivity relations, but also furnish practical design principles for the synthesis of new sulfur-containing, rod-shaped LC materials with optical applications.

Graphical abstract: Development of novel bistolane-based liquid crystalline molecules with an alkylsulfanyl group for highly birefringent materials

Supplementary files

Article information

Article type
Paper
Submitted
26 Nov 2015
Accepted
26 Jan 2016
First published
29 Jan 2016

RSC Adv., 2016,6, 16568-16574

Development of novel bistolane-based liquid crystalline molecules with an alkylsulfanyl group for highly birefringent materials

Y. Arakawa, S. Kang, H. Tsuji, J. Watanabe and G. Konishi, RSC Adv., 2016, 6, 16568 DOI: 10.1039/C5RA25122B

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