Thermal Camouflaging MXene Robotic Skin with Bio‐Inspired Stimulus Sensation and Wireless Communication
Kerui Li, Zhipeng Li, Ze Xiong, Yingxi Wang, Haitao Yang, Wenxin Xu, Lin Jing, Meng Ding, Jian Zhu, John S. Ho, Po‐Yen Chen
- Year
- 2022
- Citations
- 92
Abstract
Abstract Cephalopod skin, which is capable of dynamic optical camouflage, environmental perceptions, and herd communication, has long been a source of bio‐inspiration for developing soft robots with incredible optoelectronic functions. Yet, challenges still exist in designing a stretchable and compliant robotic skin with high‐level functional integration for soft robots with infinite degrees of freedom. Herein, an emerging 2D material, Ti 3 C 2 T x MXene, and an interfacial engineering strategy are adopted to fabricate the soft robotic skin with cephalopod skin‐inspired multifunctionality. By harnessing interfacial instability, the MXene robotic skin with reconfigurable microtextures demonstrates tunable infrared emission (0.30–0.80), enabling dynamic thermal camouflage for soft robots. Benefiting from the intrinsic Seebeck effect, crack propagation behaviors as well as high electrical conductivity, the MXene robotic skins are tightly integrated with thermal/strain sensation capabilities and can serve as a deformable antenna for wireless communication. Without additional electronics installed, the soft robots wearing the conformal MXene skins perform adaptive thermal camouflage based on the thermoelectric feedback in response to environmental temperature changes. With built‐in strain sensing and wireless communication capabilities, the soft robot can record its locomotion routes and wirelessly transmit the key information to the following soft robot to keep both in disguise under thermographic cameras.
Keywords
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