An Artificial Peripheral Neural System Based on Highly Stretchable and Integrated Multifunctional Sensors

Xinqin Liao*, Weitao Song, Xiangyu Zhang, Haoran Jin, Siyu Liu, Yongtian Wang, Aaron Voon Yew Thean, Yuanjin Zheng*

*此作品的通讯作者

科研成果: 期刊稿件文章同行评审

61 引用 (Scopus)

摘要

Prostheses and robots have been affecting all aspects of life. Making them conscious and intelligent like humans is appealing and exciting, while there is a huge contrast between progress and strong demand. An alternative strategy is to develop an artificial peripheral neural system with high-performance bionic receptors. Here, a novel functional composite material that can serve as a key ingredient to simultaneously construct different artificial exteroceptive sensors (AE sensors) and artificial proprioceptive sensors (AP sensors) is demonstrated. Both AP sensors and AE sensors demonstrate outstandingly high stretchability; up to 200% stretching strain and possess the superior performance of fast response and high stability. An artificial peripheral neural system integrated with the highly stretchable AP sensor and AE sensor is constructed, which makes a significant breakthrough in the perception foundation of efficient proprioception and exteroception for intelligent prostheses and soft robots. Accurate feedback on the activities of body parts, music control, game manipulation, and wireless typing manifest the enormous superiority of the spatiotemporal resolution function of the artificial peripheral neural system, all of which powerfully contribute to promoting intelligent prostheses and soft robots into sophistication, and are expected to make lives more fascinating.

源语言英语
文章编号2101107
期刊Advanced Functional Materials
31
24
DOI
出版状态已出版 - 9 6月 2021

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