A Visible and Near-Infrared Light-Fueled Omnidirectional Twist-Bend Crawling Robot |
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| Authors: | Nina Qian Hari Krishna Bisoyi Meng Wang Shuai Huang Zhongcheng Liu Xu-Man Chen Jun Hu Hong Yang Quan Li |
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| Affiliation: | 1. Institute of Advanced Materials, School of Chemistry and Chemical Engineering, State Key Laboratory of Bioelectronics, and Jiangsu Province Hi-Tech Key, Laboratory for Bio-medical Research, Southeast University, Nanjing, Jiangsu Province, 211189 China;2. Advanced Materials and Liquid Crystal Institute and Materials Science Graduate Program, Kent State University, Kent, OH, 44242 USA |
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| Abstract: | In recent years, although light-driven soft actuators have attracted intense scientific attention and achieved remarkable progress, the design and construction of an intelligent robotic system with maneuverability, self-adaptability, untethered control, and greater freedom of action, in particular the omnidirectional motion capability on a plane, remains challenging. Herein, four types of photo-thermal fillers and an unprecedented twist-bend actuation mode is introduced into a liquid crystal elastomer-based soft robot. The obtained twist-bend crawling robot not only exhibits in situ rotation, four-way turning, and four-way linear motion under light irradiation with four wavelength bands (520, 655, 808, and 980 nm), but also demonstrates the ability to avoid obstacles in complex geographical environments. This work may bring a new perspective for fabrication and development of soft robots that can adapt to dynamic and complex environmental conditions. |
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| Keywords: | light-fueled crawling robots liquid crystal elastomers omnidirectional motions twist-bend untethered controls |
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