Applied Sciences (Apr 2023)

Investigating the Electro-Optic Response of Steroid Doped Liquid Crystal Devices

  • Steven M. Wolf,
  • Zachary M. Marsh,
  • Steven M. Quarin,
  • Kyung Min Lee,
  • Sushma Karra,
  • Michael E. McConney,
  • Tod A. Grusenmeyer,
  • Nicholas P. Godman

DOI
https://doi.org/10.3390/app13085054
Journal volume & issue
Vol. 13, no. 8
p. 5054

Abstract

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Nature is highly efficient at producing chiral compounds that are enantiomerically pure. The inherent chirality of naturally occurring biomolecules means that many have the potential to be used as chiral dopants for cholesteric liquid crystal (CLC) systems. Though many biomolecules have been identified as chiral dopants, many remain yet to be probed for their ability to function as chiral dopants. Here, 10 naturally occurring biomolecules comprised of steroids and bile acids were tested as chiral dopants for CLCs. Progesterone was identified as having high miscibility with nematic liquid crystals and was used in responsive liquid crystal devices. Progesterone-doped CLC devices were fabricated to exhibit either normal mode or reverse mode switchable behavior. Polymer stabilized CLCs (PSCLC) devices exhibiting dynamic electro-optic red- and blue-tuning behaviors were also fabricated. Furthermore, immiscible lithocholic acid was synthetically modified to afford two derivatives that were miscible at 10 wt. % in nematic liquid crystals. The two lithocholic acid derivatives were used as chiral dopants and incorporated into polymer stabilized CLCs which exhibited blue tuning behavior.

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