执行机构
软机器人
材料科学
压阻效应
石墨烯
计算机科学
机器人学
微电子机械系统
人工肌肉
人工智能
激光器
机械工程
机器人
纳米技术
光电子学
工程类
物理
光学
作者
Hao Wang,Xuyang Li,Xiaoyue Wang,Yong Qin,Yang Pan,Xiaogang Guo
出处
期刊:Small
[Wiley]
日期:2023-12-12
卷期号:20 (21): e2310612-e2310612
被引量:23
标识
DOI:10.1002/smll.202310612
摘要
The biological system realizes the unity of action and perception through the muscle tissue and nervous system. Correspondingly, artificial soft actuators realize the unity of sensing and actuating functions in a single functional material, which will have tremendous potential for developing intelligent and bionic soft robotics. This paper reports the design of a laser-induced graphene (LIG) electrothermal actuator with self-sensing capability. LIG, a functional material formed by a one-step direct-write lasing procedure under ambient air, is used as electrothermal conversion materials and piezoresistive sensing materials. By transferring LIG to a flexible silicone substrate, the design ability of the LIG-based actuator unit is enriched, along with an effectively improved sensing sensitivity. Through the integration of different types of well-designed LIG-based actuator units, the transformations from multidimensional precursors to 2D and 3D structures are realized. According to the piezoresistive effect of the LIG units during the deformation process, the visual synchronous deformation state feedback of the LIG-based actuator is proposed. The multimodal crawling soft robotics and the switchable electromagnetic shielding cloak serve as the demonstrations of the self-sensing LIG-based actuator, showing the advantage of the design in remote control of the soft robot without relying on the assistance of visual devices.
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