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Effect of a Trifluorophenyl-Based Monomer on the Electro-optic Performances of Polymer-Stabilized Blue Phase Liquid Crystals
Brazilian Journal of Physics ( IF 1.5 ) Pub Date : 2020-09-15 , DOI: 10.1007/s13538-020-00792-5
Minggang Hu , Jiangwei Li , Nejmettin Avci

We synthesized one novel mono-functional acrylate monomer. The effect of the new monomer on blue phase liquid crystal stabilization and electro-optical properties was investigated with different reactive polymer concentration and combination. The temperature range of blue phase samples was widened over 50 ° C including room temperature through the use of polymer stabilization. Electro-optical properties including lower driving voltage (69.8 V), lower hysteresis (3.9%), lower response time (0.468 ms), and higher Kerr constant (9.4 nm/V2) were obtained by optimizing the concentration of different composites. They are strongly influenced by the interface energy between the liquid crystal molecules and polymer combination system. It is found that hysteresis is sensitive to the polymer concentration.

中文翻译:

三氟苯基单体对聚合物稳定蓝相液晶电光性能的影响

我们合成了一种新型的单官能丙烯酸酯单体。研究了新单体对不同反应聚合物浓度和组合的蓝相液晶稳定性和电光性能的影响。通过使用聚合物稳定化,蓝相样品的温度范围扩大到 50°C 以上,包括室温。通过优化不同复合材料的浓度,获得了包括更低驱动电压 (69.8 V)、更低滞后 (3.9%)、更低响应时间 (0.468 ms) 和更高克尔常数 (9.4 nm/V2) 在内的电光特性。它们受液晶分子和聚合物组合系统之间界面能的强烈影响。发现滞后对聚合物浓度敏感。
更新日期:2020-09-15
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