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Phase Transitions
A Multinational Journal
Volume 85, 2012 - Issue 10: Special Issue in Honour of Milada Glogarová
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Original Articles

Physical properties of a bent-core nematic liquid crystal and its mixtures with calamitic molecules

Á. Buka Institute for Solid State Physics and Optics, Wigner Research Centre for Physics, Hungarian Academy of Sciences, P.O. Box 49, H-1525 Budapest, HungaryCorrespondence[email protected]
,
N. Éber Institute for Solid State Physics and Optics, Wigner Research Centre for Physics, Hungarian Academy of Sciences, P.O. Box 49, H-1525 Budapest, Hungary
,
K. Fodor-Csorba Institute for Solid State Physics and Optics, Wigner Research Centre for Physics, Hungarian Academy of Sciences, P.O. Box 49, H-1525 Budapest, Hungary
,
A. Jákli Liquid Crystal Institute, Kent State University, Kent, OH 44242, USA
&
P. Salamon Institute for Solid State Physics and Optics, Wigner Research Centre for Physics, Hungarian Academy of Sciences, P.O. Box 49, H-1525 Budapest, Hungary
Pages 872-887 | Received 27 Mar 2012, Accepted 26 Apr 2012, Published online: 07 Jun 2012
 
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Abstract

This article summarizes the results obtained by various experimental methods on the physical properties of a bent-core nematic liquid crystal 4-chloro-1,3-phenylene bis-4-[4′-(9-decenyloxy) benzoyloxy] benzoate (ClPbis10BB). The material exhibits unusual properties in all aspects tested. Its bend flexoelectric coefficient is 1000 times larger than in calamitics; it is viscoelastic with a large, shear-rate-dependent viscosity. Its bend and twist elastic constants are abnormally low; thus the nematic phase can be rendered to be a blue fog phase with a small amount of chiral dopant. It shows very high flow birefringence and unusually small leading Landau coefficient. It has two types of isotropic phases; at lower temperature it is probably tetrahedratic that can be transferred into the nematic phase with magnetic field. ClPbis10BB has a frequency-dependent conductivity anisotropy which is characterized by a double sign inversion. It exhibits various electroconvection (EC) patterns which are currently not understood in the frame of the standard theory of EC.

Acknowledgments

Financial supports by the Hungarian Research Funds OTKA-K-81250 and by NSF DMR-0964765 are gratefully acknowledged.

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