Spatiotemporally Controlled Soft Robotics with Optically Responsive Liquid Crystal Elastomers
Elizabeth R. Blackert, Phoebe Scaccia, Morgan Barnes, Taniya M. S. K. Pathiranage, Rafael Verduzco, Vaibhav Unhelkar, Hanyu Zhu
- 发表年份
- 2025
- 引用次数
- 3
- 访问权限
- 开放获取
摘要
Light‐responsive materials enable the development of soft robots that are controlled remotely in 3D space and time without the need for cumbersome wires, onboard batteries, or altering the local environment. Azobenzene liquid crystal polymer networks are one such material that can move and deform in response to light actuation. Previous works have demonstrated azo‐based soft robotic grippers and transporters that are remotely powered by light. However, highly adaptive, automated spatiotemporal optical control over these materials has not yet been realized. Herein, a system for an azobenzene liquid crystal elastomer soft robotic arm is created by dynamically patterning light for independently maneuverable joints. The nonlinear material response to optical actuation is characterized, and the broad actuation space is explored with diverse arm configurations. A neural network is trained on the arm configurations and corresponding laser pattern to automate the pattern generation for a desired configuration. Finally, the azobenzene liquid crystal elastomer arm demonstrates complex targeted motion, marking an important step toward optically actuated soft robotics with applications ranging from optomechanics to biomedical tools.
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