Control of haze value by dynamic scattering in a liquid crystal mixture without ion dopants

We report a method to control the haze value by dynamic scattering in a liquid crystal mixture without ion dopants. The liquid crystal (LC) mixture consists of chiral smectic C (SmC*) and nematic (N) LC molecules. In the absence of an electric field, LC molecules in the SmC* phase are oriented by th...

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Veröffentlicht in:	AIP advances 2018-08, Vol.8 (8), p.085004-085004-9
Hauptverfasser:	Jo, Young-Seo, Choi, Tae-Hoon, Ji, Seong-Min, Yoon, Tae-Hoon
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropy Dopants Electric fields Haze Liquid crystals Polarity Scattering Substrates
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creator	Jo, Young-Seo Choi, Tae-Hoon Ji, Seong-Min Yoon, Tae-Hoon
description	We report a method to control the haze value by dynamic scattering in a liquid crystal mixture without ion dopants. The liquid crystal (LC) mixture consists of chiral smectic C (SmC) and nematic (N) LC molecules. In the absence of an electric field, LC molecules in the SmC phase are oriented by the neighboring vertically-aligned N-LC molecules so that the LC cell is transparent. When a vertical electric field is applied to the LC cell, N-LC molecules with negative dielectric anisotropy tilt down in a random direction parallel to the two substrates, whereas SmC-LC molecules are rotated with the polarity reversal of the applied field. During the switching process, we observed dynamic scattering because the random orientation of N-LCs is maintained via the rotation of SmC-LCs, resulting in a high-haze translucent state without the use of ionic dopants. The LC mixture exhibited a very high haze of 96.1% in the translucent state while maintaining the haze-free (
doi_str_mv	10.1063/1.5030764
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The liquid crystal (LC) mixture consists of chiral smectic C (SmC) and nematic (N) LC molecules. In the absence of an electric field, LC molecules in the SmC phase are oriented by the neighboring vertically-aligned N-LC molecules so that the LC cell is transparent. When a vertical electric field is applied to the LC cell, N-LC molecules with negative dielectric anisotropy tilt down in a random direction parallel to the two substrates, whereas SmC-LC molecules are rotated with the polarity reversal of the applied field. During the switching process, we observed dynamic scattering because the random orientation of N-LCs is maintained via the rotation of SmC-LCs, resulting in a high-haze translucent state without the use of ionic dopants. 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The liquid crystal (LC) mixture consists of chiral smectic C (SmC) and nematic (N) LC molecules. In the absence of an electric field, LC molecules in the SmC phase are oriented by the neighboring vertically-aligned N-LC molecules so that the LC cell is transparent. When a vertical electric field is applied to the LC cell, N-LC molecules with negative dielectric anisotropy tilt down in a random direction parallel to the two substrates, whereas SmC-LC molecules are rotated with the polarity reversal of the applied field. During the switching process, we observed dynamic scattering because the random orientation of N-LCs is maintained via the rotation of SmC-LCs, resulting in a high-haze translucent state without the use of ionic dopants. 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subjects	Anisotropy Dopants Electric fields Haze Liquid crystals Polarity Scattering Substrates
title	Control of haze value by dynamic scattering in a liquid crystal mixture without ion dopants
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