液晶与显示2024,Vol.39Issue(12):1708-1721,14.DOI:10.37188/CJLCD.2024-0210
液晶聚合物执行器的微加工方法及其应用
Micromachining methods and applications of liquid crystal polymer actuators
摘要
Abstract
Liquid crystal polymers are environment-responsive materials capable of intelligent deformation.Microactuators constructed from these smart materials can directly convert environmental stimuli into mechanical motion without the need for complex energy conversion components or mechanical transmission structures.Consequently,liquid crystal polymer microactuators hold significant potential for applications in fields such as microrobotics,intelligent transport and biomedical devices.There are two primary technical challenges in the micromachining of liquid crystal polymer:the fabrication of micro/nanoscale devices and the alignment of liquid crystals.This paper reviews recent micro/nanofabrication methods for liquid crystal polymers and the potential application areas of the corresponding functional devices,focusing on how to address these two technical challenges.关键词
微纳加工/液晶聚合物/柔性执行器/刺激响应形变/液晶取向Key words
micro/nano fabrication/liquid crystal polymers/flexible actuators/stimulus-responsive deformation/liquid crystal alignment分类
化学化工引用本文复制引用
刘凯,吕久安..液晶聚合物执行器的微加工方法及其应用[J].液晶与显示,2024,39(12):1708-1721,14.基金项目
国家自然科学基金(No.52273111) Supported by National Natural Science Foundation of China(No.52273111) (No.52273111)
