Liquid crystal photoalignment technique: Basics, developments, and flexible/stretchable device applications

Materials Today Electronics Pub Date : 2023-10-16 DOI:10.1016/j.mtelec.2023.100069

Xiaochuan Xi , Cenqi Yan , Larry Zhongxin Shen , Yinghan Wang , Pei Cheng

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Abstract

The liquid crystal photoalignment technique is a non-contact approach to establishing liquid crystal alignment using light irradiation, with the advantages of being non-polluting and non-electrostatic, and allowing facile microdomain orientation, compared with the rubbing alignment method. This review covers three categories of photoalignment under polarized light irradiation: photoisomerization, photodegradation, and photo-crosslinking. Photosensitive materials, such as azobenzene, polyimide, and cinnamate, are also introduced. Nonpolarized photoalignment technique is also presented. This review also summarizes the methods of controlling pretilt angle and increasing photosensitivity and several applications of the photoalignment technique. The photoalignment technique has considerable promise and value for liquid crystal displays, spatial filters, and flexible/stretchable devices.

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液晶光对准技术:基础、发展和柔性/可拉伸器件应用

液晶光定向技术是一种利用光照射建立液晶定向的非接触方法，与摩擦定向方法相比，具有无污染、无静电、易于微畴定向等优点。本文综述了偏振光照射下光取向的三种类型:光异构化、光降解和光交联。光敏材料，如偶氮苯，聚酰亚胺，肉桂酸，也介绍了。介绍了非偏振光对准技术。本文还综述了控制预倾斜角和提高光敏度的方法以及光对准技术的几种应用。光对准技术在液晶显示器、空间滤波器和柔性/可拉伸器件方面具有相当大的前景和价值。

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来源期刊

Materials Today Electronics

CiteScore

2.10

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0.00%

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