Mass-Produced Skin-Inspired Piezoresistive Sensing Array with Interlocking Interface for Object Recognition
Shenglong Wang, Yelan Yao, Weili Deng, Xiang Chu, Tao Yang, Guo Tian, Yong Ao, Yue Sun, Boling Lan, Xiarong Ren, Xuelan Li, Tianpei Xu, Longchao Huang, Yang Liu, Jun Lü, Weiqing Yang
- Year
- 2024
- Citations
- 58
Abstract
E-skins, capable of responding to mechanical stimuli, hold significant potential in the field of robot haptics. However, it is a challenge to obtain e-skins with both high sensitivity and mechanical stability. Here, we present a bioinspired piezoresistive sensor with hierarchical structures based on polyaniline/polystyrene core–shell nanoparticles polymerized on air-laid paper. The combination of laser-etched reusable templates and sensitive materials that can be rapidly synthesized enables large-scale production. Benefiting from the substantially enlarged deformation of the hierarchical structure, the developed piezoresistive electronics exhibit a decent sensitivity of 21.67 kPa–1 and a subtle detection limit of 3.4 Pa. Moreover, an isolation layer is introduced to enhance the interface stability of the e-skin, with a fracture limit of 66.34 N/m. Furthermore, the e-skin can be seamlessly integrated onto gloves without any detachment issues. With the assistance of deep learning, it achieves a 98% accuracy rate in object recognition. We anticipate that this strategy will render e-skin with more robust interfaces and heightened sensing capabilities, offering a favorable pathway for large-scale production.
Keywords
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