智能手性液晶弹性体:设计、特性和应用

Yuan Liu, Jiazhe Ma, Yanzhao Yang, Cristian Valenzuela, Xuan Zhang, Ling Wang, Wei Feng
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摘要

智能手性液晶弹性体是一类具有周期性纳米结构的软光子晶体。手性液晶弹性体有两种结构颜色:具有一维螺旋纳米结构的胆甾液晶弹性体和具有三维光子晶体纳米结构的蓝相液晶弹性体。手性液晶弹性体的自组装纳米结构可在外部刺激下动态控制,反射颜色可在整个可见光范围内调节。随着创新材料体系和尖端制造技术的发展,研究人员提出了设计和合成手性液晶弹性体的多种策略,并对其性能和潜在应用进行了深入研究。在此,我们系统回顾了智能手性液晶弹性体的设计与制造进展,重点介绍了通过表面强化配位、棒状涂层、三维打印、各向异性脱胶方法以及无需额外配位的蓝相液晶弹性体的三维自组装等方法制备的胆甾液晶弹性体。智能手性液晶弹性体能够对外界刺激做出快速反应,在自适应光学、变色伪装、软机器人和信息加密等领域有着广泛的应用。本综述最后展望了智能手性液晶弹性体未来发展的机遇和挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Smart chiral liquid crystal elastomers: Design, properties and application
Smart chiral liquid crystal elastomers are a class of soft photonic crystals with periodic nanostructures. There are two kinds of chiral liquid crystal elastomers with structural colors: cholesteric liquid crystal elastomers with a one-dimensional helical nanostructure and blue-phase liquid crystal elastomers with a three-dimensional photonic crystal nanostructure. The self-assembled nanostructure of chiral liquid crystal elastomers can be dynamically controlled under external stimulation, and the reflected color can be adjusted throughout the visible light range. Along with the development of innovative material systems and cutting-edge manufacturing technologies, researchers have proposed diverse strategies to design and synthesize chiral liquid crystal elastomers and have thoroughly investigated their properties and potential applications. Here, we provide a systematic review of the progress in the design and fabrication of smart chiral liquid crystal elastomers, focusing on the cholesteric liquid crystal elastomers via surface-enforced alignment, bar coating, 3D printing, anisotropic deswelling methods as well as the three-dimensional self-assembly of blue-phase liquid crystal elastomers without additional alignment. Smart chiral liquid crystal elastomers are able to respond quickly to external stimuli and have a wide range of applications in areas such as adaptive optics, color-changing camouflage, soft robotics, and information encryption. This review concludes with a perspective on the opportunities and challenges for the future development of smart chiral liquid crystal elastomers.
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