The Nematic Phases of Bent-Core Liquid Crystals

Over the last ten years, the nematic phases of liquid crystals formed from bent‐core structures have provoked considerable research because of their remarkable properties. This Minireview summarises some recent measurements of the physical properties of these systems, as well as describing some new...

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Published inChemphyschem Vol. 15; no. 7; pp. 1251 - 1260
Main Authors Gleeson, Helen F., Kaur, Sarabjot, Görtz, Verena, Belaissaoui, Abdel, Cowling, Stephen, Goodby, John W.
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 19.05.2014
WILEY‐VCH Verlag
Wiley
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Summary:Over the last ten years, the nematic phases of liquid crystals formed from bent‐core structures have provoked considerable research because of their remarkable properties. This Minireview summarises some recent measurements of the physical properties of these systems, as well as describing some new data. We concentrate on oxadiazole‐based materials as exemplars of this class of nematogens, but also describe some other bent‐core systems. The influence of molecular structure on the stability of the nematic phase is described, together with progress in reducing the nematic transition temperatures by modifications to the molecular structure. The physical properties of bent‐core nematic materials have proven difficult to study, but patterns are emerging regarding their optical and dielectric properties. Recent breakthroughs in understanding the elastic and flexoelectric behaviour are summarised. Finally, some exemplars of unusual electric field behaviour are described. Bent on stability: The nematic liquid‐crystal phases formed by bent‐core molecules have remarkable properties. This Minireview reports recent progress in stabilizing the nematic phase at accessible temperatures, concentrating on oxadiazole‐based materials. It also describes recent measurements of their physical properties, including optical, dielectric, elastic, and flexoelectric coefficients, and electric field effects (see graphic).
Bibliography:ArticleID:CPHC201400014
istex:4C69DC5B230F0722FF2EEDD702243F23E5F1FAB5
Funded Access
Royal Society
ark:/67375/WNG-V33ZQNNC-R
Engineering and Physical Sciences Research Council - No. EP/G023093/1; No. EP/D055261/1
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1439-4235
1439-7641
DOI:10.1002/cphc.201400014