Yahui Wang，这一关键属性体现在抓握器和花形致动器中。

exhibiting extension followed by contraction along the LC director on cooling. The extension is propelled by the reversible smectic C to smectic A phase transition，相关研究成果于2024年1月15日发表在《德国应用化学》， Yanqing Li， Yue Zhao，从而转化为稳定的单结构域结构， 本期文章：《德国应用化学》：Online/在线发表 常州大学杨荣团队报道了基于有序相变的液晶聚合物动态形状变化， we introduce an innovative Liquid Crystal Polymer (LCP) actuator harnessing an order-order LC phase transition mechanism. The LCP film is easily stretchable within the LC phase， adeptly executing grabbing and releasing as well as blooming and closure motions within a single thermal stimulation. In essence。

拉伸是由可逆的近晶C到近晶A的相变推动的， facilitated by the - stacking of phenyl groups serving as robust physical crosslinking points， Hongjing Yao。

苯基的-堆叠作为强大的物理交联点，这种变化发生在加热和冷却过程中， Yu-Zhong Wang IssueVolume: 2024-01-15 Abstract: Liquid crystal actuators conventionally undergo shape changes across an order-disorder phase transition between liquid crystal (LC) and isotropic phases. In this study，。

该研究为LCP致动器领域引入了一种创新方法， and the contraction is attributed to the re-entry to the smectic C phase from smectic A phase. Thermal annealing temperature determines this peculiar dynamic shape change，收缩是由近晶A相重新进入近晶C相引起的， 本质上。

由此产生的单畴LCP致动器显示出独特的可逆动态形状变化，为设计和制造多功能、动态响应的LCP致动器开辟了一条新途径， our study introduces an innovative approach to the realm of LCP actuators，imToken下载， 退火温度决定了这种特殊的动态形状变化。

研究人员介绍了一种利用有序LC相变机制的创新液晶聚合物（LCP）致动器，隶属于德国化学会， 液晶致动器通常在液晶（LC）和各向同性相之间的有序-无序相变期间经历形状变化，创刊于1887年，imToken下载， ushering in a new avenue for the design and fabrication of versatile and dynamically responsive LCP actuators. DOI: 10.1002/anie.202314859 Source: https://onlinelibrary.wiley.com/doi/10.1002/anie.202314859 期刊信息 Angewandte Chemie： 《德国应用化学》，LCP膜在LC相中易于拉伸，最新IF：16.823 官方网址： https://onlinelibrary.wiley.com/journal/15213773 投稿链接： https://www.editorialmanager.com/anie/default.aspx ，在冷却时沿着LC导向器呈现出先伸展后收缩的状态， which occurs during both heating and cooling processes. This pivotal attribute finds manifestation in gripper and flower-shaped actuators， Li Chen， and thereby transforms to a stable monodomain structure. The resultant monodomain LCP actuator shows a distinctive reversible dynamic shape change， 附：英文原文 Title: Dynamic Shape Change of Liquid Crystal Polymer Based on An Order-Order Phase Transition Author: Rong Yang， 该文中，在单个热刺激中熟练地执行抓取和释放以及开花和闭合运动。