Jiang Zhi-Chao, Xiao Yao-Yu, Tong Xia, Zhao Yue
Département de chimie, Université de Sherbrooke, Sherbrooke, Quebec, J1K 2R1, Canada.
Angew Chem Int Ed Engl. 2019 Apr 8;58(16):5332-5337. doi: 10.1002/anie.201900470. Epub 2019 Mar 19.
The ability to optically reconfigure an existing actuator of a liquid crystal polymer network (LCN) so that it can display a new actuation behavior or function is highly desired in developing materials for soft robotics applications. Demonstrated here is a powerful approach relying on selective polymer chain decrosslinking in a LCN actuator with uniaxial LC alignment. Using an anthracene-containing LCN, spatially controlled optical decrosslinking can be realized through photocleavage of anthracene dimers under 254 nm UV light, which alters the distribution of actuation (crosslinked) and non-actuation (decrosslinked) domains and thus determines the actuation behavior upon order-disorder phase transitions. Based on this mechanism, a single actuator having a flat shape can be reconfigured in an on-demand manner to exhibit reversible shape transformation such as self-folding into origami three-dimensional structures. Moreover, using a dye-doped LCN actuator, a light-fueled microwalker can be optically reconfigured to adopt different locomotion behaviors, changing from moving in the laser scanning direction to moving in the opposite direction.
在开发用于软机器人应用的材料时,人们非常希望能够对液晶聚合物网络(LCN)的现有致动器进行光学重新配置,使其能够展现出新的致动行为或功能。本文展示了一种强大的方法,该方法依赖于在具有单轴液晶排列的LCN致动器中进行选择性聚合物链解交联。使用含蒽的LCN,通过在254 nm紫外光下蒽二聚体的光裂解可实现空间控制的光学解交联,这会改变致动(交联)和非致动(解交联)域的分布,从而决定有序-无序相变时的致动行为。基于此机制,具有扁平形状的单个致动器可以按需重新配置,以展现可逆的形状转变,例如自折叠成折纸三维结构。此外,使用染料掺杂的LCN致动器,光驱动的微型步行器可以通过光学重新配置来采用不同的运动行为,从沿激光扫描方向移动变为沿相反方向移动。
