首页 /研究 /Desynchronized liquid crystalline network actuators with deformation reversal capability
LOCOMOTION

Desynchronized liquid crystalline network actuators with deformation reversal capability

Yao‐Yu Xiao, Zhi‐Chao Jiang, Yue Zhao

发表年份
2021
引用次数
65

摘要

Liquid crystalline network (LCN) actuator normally deforms upon thermally or optically induced order-disorder phase transition, switching once between two shapes (shape 1 in LC phase and shape 2 in isotropic state) for each stimulation on/off cycle. Herein, we report an LCN actuator that deforms from shape 1 to shape 2 and then reverses the deformation direction to form shape 3 on heating or under light only, thus completing the shape switch twice for one stimulation on/off cycle. The deformation reversal capability is obtained with a monolithic LCN actuator whose two sides are made to start deforming at different temperatures and exerting different reversible strains, by means of asymmetrical crosslinking and/or asymmetrical stretching. This desynchronized actuation strategy offers possibilities in developing light-fueled LCN soft robots. In particular, the multi-stage bidirectional shape change enables multimodal, light-driven locomotion from the same LCN actuator by simply varying the light on/off times.

关键词

ActuatorShape changeMaterials scienceDeformation (meteorology)IsotropyPhase (matter)Liquid crystallineLiquid crystalMechanicsComputer science

相关论文

查看 LOCOMOTION 分类全部论文