Natural science specialising in physics
Bent Core Nematics - Alignment and Electric-Optic Effects
Abstract
A new class of liquid crystal materials has been recently discovered. These mate-
rials are constituting of bent core (BC) molecules. Being initially only of scientific interest,
now they attract the interest not only of scientists but also of engineers because of their great
potential for applications in liquid crystal displays (LCDs) and photonics devices.
The present study focused mainly on pure BC nematics and their binary mixtures
(BC/RL) with a rod-like (RL) nematic related to their
a) anchoring properties with respect to a solid surface in contact with these materials
b) general behavior under an applied dc electric field, and particular electro-optic response due
to the linear coupling with the applied field
c) polar electro-optic response due to flexoelectricity.
The conventional methods for obtaining vertical alignment (VA) of the RL nematics were unable to
promote VA of the BC and their binary (BC/RL) mixtures, for the concentration less than 20wt%,
instead they adopted planar alignment (PA). In concentration higher than 20wt%, the binary mixtures
adopted VA in a very narrow temperature interval below the transition to the isotropic phase;
where anchoring transition from VA to PA was observed upon cooling.
Interestingly, field-induced optically isotropic state and switching of the sample optic axis
between three mutually orthogonal directions were observed in BC and BC/RL, with concentration
less than 40wt%. Due to the similarity in the molecular structures, the above observations were
compared with the one observed in anti-ferroelectric liquid crystals (AFLC) with molecular tilt
close or equal to 45◦. Periodic domain pattern and helical molecular order, with helix axis
parallel to the cell substrate and normal to the domains, were found to be formed under an applied
dc electric field, as a result of flexoelectricity of the BC materials. Polar flexoelectric
response was detected in these materials when subjected to an out-of plane or in-plane low
frequency electric field.
Keywords: Liquid Crystal, Nematics, Bent Core Molecules, Electro-Optics, Biaxial,
Flexoelectricity
Parts of work
I. Alignment and alignment transition of bent core nematics, Omaima Elamain, Gurumurthy Hegde, Lachezar Komitov, Journal of Applied Physics Letters, 103, 023301 (2013).
:: doi::10.1063/1.4813443 II. Field-induced optically isotropic state in bent core nematic liquid crystals: Unambiguous proof of optical biaxility, Omaima Elamain, Gurumurthy Hegde, Katalin Fodor-Csorba , Lachezar Komitov. submitted for publication to Journal of Physics D: Applied Physics, under revision. III. Optically isotropic state in bent core nematic mixtures with rod like molecules induced by dc electric field, Omaima Elamain, Gurumurthy Hegde, Katalin Fodor-Csorba , Lachezar Komitov, submitted for publication to Journal of Applied Physics Letters, under revision. IV. Periodic pattern formation in a bent core nematic liquid crystal, Omaima Elamain, Gurumurthy Hegde, Katalin Fodor-Csorba , Lachezar Komitov, manuscript. V. Polar In-Plane and Out-of-Plane Switching in Bent Core Nematics Due to Flexoelectricity, Omaima Elamain, Gurumurthy Hegde, Lachezar Komitov, manuscript.
Degree
Doctor of Philosophy
University
Göteborgs universitet. Naturvetenskapliga fakulteten
Institution
Department of Physics ; Institutionen för fysik
Disputation
10:00 i sal HA2, Hörsalsvägen 4, Chalmers, Göteborg
Date of defence
2013-09-20
omaima.elamain@physics.gu.se
Date
2013-08-30Author
Elamain, Omaima Abubakr
Keywords
Liquid Crystal
Nematics
Bent Core Molecules
Electro-Optics
Biaxial
Flexoelectricity
Publication type
Doctoral thesis
ISBN
978-91-628-8704-9
Language
eng