Electro-thermal formation of uniform lying helix alignment in a cholesteric liquid crystal cell

Chia Hua Yu, Po Chang Wu, Wei Lee*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

12 Scopus citations

Abstract

We demonstrated previously that the temperature of a sandwich-type liquid crystal cell with unignorable electrode resistivity could be electrically increased as a result of dielectric heating. In this study, we take advantage of such an electro-thermal effect and report on a unique electric-field approach to the formation of uniform lying helix (ULH) texture in a cholesteric liquid crystal (CLC) cell. The technique entails a hybrid voltage pulse at frequencies f 1 and, subsequently, f 2 , which are higher and lower than the onset frequency for the induction of dielectric heating, respectively. When the cell is electrically sustained in the isotropic phase by the voltage pulse of V = 35 V rms at f 1 = 55 kHz or in the homeotropic state with the enhanced ionic effect at V = 30 V rms and f 1 = 55 kHz, our results indicate that switching of the voltage frequency from f 1 to f 2 enables the succeeding formation of well-aligned ULH during either the isotropic-to-CLC phase transition at f 2 = 1 kHz or by the electrohydrodynamic effect at f 2 = 30 Hz. For practical use, the aligning technique proposed for the first time in this study is more applicable than existing alternatives in that the obtained ULH is adoptable to CLCs with positive dielectric anisotropy in a simple cell geometry where complicated surface pretreatment is not required. Moreover, it is electrically switchable to other CLC textures such as Grandjean planar and focal conic states without the need of a temperature controller for the phase transition, the use of ion-rich LC materials, or mechanical shearing for textural transition.

Original languageEnglish
Article number183
JournalCrystals
Volume9
Issue number4
DOIs
StatePublished - Apr 2019

Keywords

  • Cholesteric liquid crystals
  • Dielectric heating
  • Uniform lying helix

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