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用于水下软机器人致动器的偶氮苯功能化半结晶液晶弹性体弹簧

Azobenzene-Functionalized Semicrystalline Liquid Crystal Elastomer Springs for Underwater Soft Robotic Actuators.

作者信息

Seo Wonbin, Haines Carter S, Kim Hongdeok, Park Chae-Lin, Kim Shi Hyeong, Park Sungmin, Kim Dong-Gyun, Choi Joonmyung, Baughman Ray H, Ware Taylor H, Lee Habeom, Kim Hyun

机构信息

School of Mechanical Engineering, Pusan National University, Busan, 46241, Republic of Korea.

The Alan G. MacDiarmid NanoTech Institute, University of Texas at Dallas, Richardson, TX, 75080, USA.

出版信息

Small. 2025 Feb;21(8):e2406493. doi: 10.1002/smll.202406493. Epub 2024 Oct 21.

Abstract

As actuated devices become smaller and more complex, there is a need for smart materials and structures that directly function as complete mechanical units without an external power supply. The strategy uses light-powered, twisted, and coiled azobenzene-functionalized semicrystalline liquid crystal elastomer (AC-LCE) springs. This twisting and coiling, which has previously been used for only thermally, electrochemically, or absorption-powered muscles, maximizes uniaxial and radial actuation. The specially designed photochemical muscles can undergo about 60% tensile stroke and provide 15 kJ m of work capacity in response to light, thus providing about three times and two times higher performance, respectively, than previous azobenzene actuators. Since this actuation is photochemical, driven by ultraviolet (UV) light and reversed by visible light, isothermal actuation can occur in a range of environmental conditions, including underwater. In addition, photoisomerization of the AC-LCEs enables unique latch-like actuation, eliminating the need for continuous energy application to maintain the stroke. Also, as the light-powered muscles processed to be either homochiral or heterochiral, the direction of actuation can be reversed. The presented approach highlights the novel capabilities of photochemical actuator materials that can be manipulated in untethered, isothermal, and wet environmental conditions, thus suggesting various potential applications, including underwater soft robotics.

摘要

随着驱动装置变得越来越小且越来越复杂,需要智能材料和结构,它们无需外部电源就能直接作为完整的机械单元发挥作用。该策略采用了光驱动、扭曲和卷曲的偶氮苯功能化半结晶液晶弹性体(AC-LCE)弹簧。这种扭曲和卷曲此前仅用于热驱动、电化学驱动或吸收驱动的肌肉,可使单轴和径向驱动最大化。这种经过特殊设计的光化学肌肉在光照下可实现约60%的拉伸行程,并提供15kJ/m的工作能力,因此分别比以前的偶氮苯致动器性能高出约三倍和两倍。由于这种驱动是光化学的,由紫外线(UV)驱动并由可见光逆转,所以在包括水下在内的一系列环境条件下都能发生等温驱动。此外,AC-LCE的光异构化实现了独特的闩锁式驱动,无需持续施加能量来维持行程。而且,由于光驱动肌肉可加工成同手性或异手性,驱动方向可以反转。所提出的方法突出了光化学致动器材料在无束缚、等温及潮湿环境条件下可操控的新颖能力,从而暗示了包括水下软机器人技术在内的各种潜在应用。

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