Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 10, Issue 9, Pages 8307-8316Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.8b00639
Keywords
artificial muscle; optically driven actuators; soft robots; liquid crystal elastomer; polydopamine
Funding
- China Scholarship Council [201506285055]
- NSFC [51505370]
- National Science Foundation [CMMI-1554212]
- ONR [N000141712062]
- NSF [DMS-1619960, CBET-1702987]
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Optically driven active materials have received much attention because their deformation and motion can be controlled remotely, instantly, and precisely in a contactless way. In this study, we investigated an optically actuated elastomer with rapid response: polydopamine (PDA)-coated liquid crystal elastomer (LCE). Because of the photothermal effect of PDA coating and thermal responsiveness of LCE, the elastomer film contracted significantly with near-infrared (NIR) irradiation. With a fixed strain, light-induced actuating stress in the film could be as large as 1.5 MPa, significantly higher than the maximum stress generated by most mammalian skeletal muscle (0.35 MPa). The PDA-coated LCE films could also bend or roll up by surface scanning of an NIR laser. The response time of the film to light exposure could be as short as 1/10 of a second, comparable to or even faster than that of mammalian skeletal muscle. Using the PDA-coated LCE film, we designed and fabricated a prototype of robotic swimmer that was able to swim near the water air interface by performing swimming strokes through reversible bending and unbending motions induced and controlled by an NIR laser. The results presented in this study clearly demonstrated that PDA-coated LCE is a promising optically driven artificial muscle, which may have great potential for applications of soft robotics and optomechanical coupling devices.
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