Three-dimensional liquid crystal polymer actuators assembled by athermal photo-welding

Photodeformable liquid crystal polymers (LCPs) exhibit shape changes of different modes like bending, twisting, and oscillation, which depend on the orientation of liquid crystals. However, it is challenging to create a three-dimensional (3D) actuator with distinct actuation modes due to the difficu...

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Bibliographic Details
Published in:Soft matter 2023-02, Vol.19 (5), p.999-17
Main Authors: Feng, Yaoqing, Wei, Jia, Qin, Lang, Yu, Yanlei
Format: Article
Language:English
Subjects:
Actuation
Actuators
Artificial muscles
Automation
Azo compounds
Crystal defects
Crystals
Fabrication
Handedness
Liquid crystal polymers
Liquid crystals
Manufacturing engineering
Muscles
Polymers
Robotics
Room temperature
Unwinding
Welding
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Summary:Photodeformable liquid crystal polymers (LCPs) exhibit shape changes of different modes like bending, twisting, and oscillation, which depend on the orientation of liquid crystals. However, it is challenging to create a three-dimensional (3D) actuator with distinct actuation modes due to the difficulty of local orientation in a complex bulk architecture. Here we propose a strategy based on athermal photo-welding to integrate different orientations into a single flexible actuator by the photofluidization of azobenzene-containing linear LCPs. Stretch-induced uniaxial films are cut in different directions and subsequently welded via local photofluidization, during which the LCP transitions from a high-modulus glassy state to a rubbery state upon photoisomerization of azobenzene at room temperature. As a consequence, a cucumber vine-like structure with the opposite handedness and a lifting gripper are constructed by such a cut-and-weld process, demonstrating diverse deformation modes of winding, unwinding, and curling. This strategy provides an athermal process for the fabrication of seamless 3D flexible actuators without structural defects, which have potential applications in micromechanical systems, soft robotics, and artificial muscles. We propose a strategy based on athermal photo-welding to construct 3D actuators assembled by azobenzene-containing linear liquid crystal polymers with different orientations, which demonstrate diverse deformations of curling, winding, and unwinding.
ISSN:1744-683X
1744-6848
DOI:10.1039/d2sm01476a