Effect of UV-light irradiation on phase diagram of lyotropic chromonic liquid crystal

We demonstrate that the phase diagram of a Lyotropic Chromonic Liquid Crystal (LCLC) is affected by ultraviolet (UV) light irradiation. UV-irradiation induces a phase transition from the nematic (N) to isotropic (I) state at a fixed temperature. Birefringence measured in-situ decreases under irradia...

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Bibliographic Details
Published in:Journal of molecular liquids 2018-10, Vol.267, p.96-99
Main Authors: Nastishin, Yu.A., Savaryn, V.I., Lychkovskyy, E., Yakovlev, M. Yu, Vankevych, P.I., Krupych, O.M., Hrabchak, V.I., Boiko, O.P., Nazarenko, V.G., Lavrentovich, O.D.
Format: Article
Language:English
Subjects:
Light-induced phenomena
Lyotropic chromonic liquid crystal
Molecular self-assembly
Phase transitions
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Summary:We demonstrate that the phase diagram of a Lyotropic Chromonic Liquid Crystal (LCLC) is affected by ultraviolet (UV) light irradiation. UV-irradiation induces a phase transition from the nematic (N) to isotropic (I) state at a fixed temperature. Birefringence measured in-situ decreases under irradiation, until the moment when the isotropic phase starts to nucleate and the initial homogeneous nematic transforms into a biphasic state. On further irradiation the birefringence of the N fraction of the biphasic I-N state increases revealing redistribution of the composition components between the two coexisting phases. The efficiency of the irradiation-induced changes depends on the orientation of the chromonic aggregates w.r.t. the polarization of UV light. Changes of the birefringence are noticeably higher for light polarization perpendicular to the nematic director. The effect can be understood as a photo-induced weakening of the face-to-face molecular attraction within the chromonic aggregates and the resulting shortening of these aggregates. •UV-irradiation transforms a nematic LCLC into a nematic-isotropic state.•UV-irradiation decreases birefringence of the nematic phase.•Post-irradiation relaxation is much longer than thermal relaxation.•UV-irradiation weakens molecular attractions and thereby shortens aggregates.
ISSN:0167-7322
1873-3166
DOI:10.1016/j.molliq.2017.12.079