Fast response time in liquid crystal cells doped with low concentrations of reactive mesogen via photopolymerization at low temperature

Chun Yu Chien; Luo Yi Wu; Chia-Rong Sheu; Che Ju Hsu; Chiyen Huang; Chi Hao Chen; Liang Ying Huang; Seok Lyul Lee; Wen Ching Tsai

doi:10.1364/OME.7.002740

Fast response time in liquid crystal cells doped with low concentrations of reactive mesogen via photopolymerization at low temperature

Chun Yu Chien, Luo Yi Wu, Chia-Rong Sheu, Che Ju Hsu, Chiyen Huang, Chi Hao Chen, Liang Ying Huang, Seok Lyul Lee, Wen Ching Tsai

Department of Photonics

Research output: Contribution to journal › Article

4 Citations (Scopus)

Abstract

Liquid crystal (LC) cells with photopolymers usually exhibit a fast response time but inevitably present decreased optical transmittance and lower contrast ratio due to incomplete dark states. In this study, we show that this issue can be improved when photopolymerization at low temperature is considered. Comparing performance with the 4 wt% RM257-doped fringe-field switching (FFS) LC cell photopolymerized at room temperature, the 1.4 wt% RM257-doped FFS LC cell photopolymerized at low temperature (273 K) shows better contrast ratio and lower operating voltage. In addition, the electrostriction effect can be also reduced in LC cells with lower RM257-doped concentration. As a result, the 1.4 wt% RM257-doped FFS cell shows a response time as fast as that in the 4 wt% RM257-doped FFS cell. Meanwhile, the average response time for grayto- gray switching of the optimal FFS cell is 4.9 ms.

Original language	English
Pages (from-to)	2740-2751
Number of pages	12
Journal	Optical Materials Express
Volume	7
Issue number	8
DOIs	https://doi.org/10.1364/OME.7.002740
Publication status	Published - 2017 Jan 1

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials

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10.1364/OME.7.002740

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Chien, C. Y., Wu, L. Y., Sheu, C-R., Hsu, C. J., Huang, C., Chen, C. H., Huang, L. Y., Lee, S. L., & Tsai, W. C. (2017). Fast response time in liquid crystal cells doped with low concentrations of reactive mesogen via photopolymerization at low temperature. Optical Materials Express, 7(8), 2740-2751. https://doi.org/10.1364/OME.7.002740

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abstract = "Liquid crystal (LC) cells with photopolymers usually exhibit a fast response time but inevitably present decreased optical transmittance and lower contrast ratio due to incomplete dark states. In this study, we show that this issue can be improved when photopolymerization at low temperature is considered. Comparing performance with the 4 wt% RM257-doped fringe-field switching (FFS) LC cell photopolymerized at room temperature, the 1.4 wt% RM257-doped FFS LC cell photopolymerized at low temperature (273 K) shows better contrast ratio and lower operating voltage. In addition, the electrostriction effect can be also reduced in LC cells with lower RM257-doped concentration. As a result, the 1.4 wt% RM257-doped FFS cell shows a response time as fast as that in the 4 wt% RM257-doped FFS cell. Meanwhile, the average response time for grayto- gray switching of the optimal FFS cell is 4.9 ms.",

author = "Chien, {Chun Yu} and Wu, {Luo Yi} and Chia-Rong Sheu and Hsu, {Che Ju} and Chiyen Huang and Chen, {Chi Hao} and Huang, {Liang Ying} and Lee, {Seok Lyul} and Tsai, {Wen Ching}",

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Fast response time in liquid crystal cells doped with low concentrations of reactive mesogen via photopolymerization at low temperature. / Chien, Chun Yu; Wu, Luo Yi; Sheu, Chia-Rong; Hsu, Che Ju; Huang, Chiyen; Chen, Chi Hao; Huang, Liang Ying; Lee, Seok Lyul; Tsai, Wen Ching.

In: Optical Materials Express, Vol. 7, No. 8, 01.01.2017, p. 2740-2751.

Research output: Contribution to journal › Article

TY - JOUR

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AU - Chien, Chun Yu

AU - Wu, Luo Yi

AU - Sheu, Chia-Rong

AU - Hsu, Che Ju

AU - Huang, Chiyen

AU - Chen, Chi Hao

AU - Huang, Liang Ying

AU - Lee, Seok Lyul

AU - Tsai, Wen Ching

PY - 2017/1/1

Y1 - 2017/1/1

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AB - Liquid crystal (LC) cells with photopolymers usually exhibit a fast response time but inevitably present decreased optical transmittance and lower contrast ratio due to incomplete dark states. In this study, we show that this issue can be improved when photopolymerization at low temperature is considered. Comparing performance with the 4 wt% RM257-doped fringe-field switching (FFS) LC cell photopolymerized at room temperature, the 1.4 wt% RM257-doped FFS LC cell photopolymerized at low temperature (273 K) shows better contrast ratio and lower operating voltage. In addition, the electrostriction effect can be also reduced in LC cells with lower RM257-doped concentration. As a result, the 1.4 wt% RM257-doped FFS cell shows a response time as fast as that in the 4 wt% RM257-doped FFS cell. Meanwhile, the average response time for grayto- gray switching of the optimal FFS cell is 4.9 ms.

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