Aligning lyotropic liquid crystals with unconventional organic layers

Authors

  • Eva Otón Nikon and Essilor International Joint Research Center Co., Ltd
  • Morten Andreas Geday Technical University of Madrid
  • Caterina Maria Tone Consejo Superior de Investigaciones Científicas
  • José Manuel Otón Technical University of Madrid http://orcid.org/0000-0001-8070-9180
  • Xabier Quintana Technical University of Madrid

DOI:

https://doi.org/10.4302/plp.v9i1.701

Abstract

Lyotropic chromonic liquid crystals (LCLC) are a kind of LCs far less known and more difficult to control than conventional thermotropic nematics. Nevertheless, LCLCs are a preferred option -often the only one- for applications where hydrophilic materials must be employed. Being water-soluble, LCLC can be used in numerous biology related devices, for example in target detection in lab-on-chip devices. However, their properties and procedures to align them are still less explored, with only a very limited number of options available, especially for homeotropic alignment. In this work, novel organic alignment layers and alignment properties have been explored for selected LCLCs. Non-conventional organic alignment layers were tested and new suitable procedures and materials for both homogeneous and homeotropic alignments have been found.

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References
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Author Biographies

Eva Otón, Nikon and Essilor International Joint Research Center Co., Ltd

Researcher

Morten Andreas Geday, Technical University of Madrid

Dept. Photonics and Bioengineering

Assoc. professor

Caterina Maria Tone, Consejo Superior de Investigaciones Científicas

Instituto de Ciencia de Materiales de Madrid 

José Manuel Otón, Technical University of Madrid

Dept. Photonics and Bioengineering

Full professor

Xabier Quintana, Technical University of Madrid

Dept. Photonics and Bioengineering

Assoc. professor

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Published

2017-03-31

How to Cite

[1]
E. Otón, M. A. Geday, C. M. Tone, J. M. Otón, and X. Quintana, “Aligning lyotropic liquid crystals with unconventional organic layers”, Photonics Lett. Pol., vol. 9, no. 1, pp. pp. 8–10, Mar. 2017.

Issue

Vol. 9 No. 1 (2017)

Section

Articles

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