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Biomimetic Hairy Whiskers for Robotic Skin Tactility
Author(s) -
An Jie,
Chen Pengfei,
Wang Ziming,
Berbille Andy,
Pang Hao,
Jiang Yang,
Jiang Tao,
Wang Zhong Lin
Publication year - 2021
Publication title -
advanced materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 10.707
H-Index - 527
eISSN - 1521-4095
pISSN - 0935-9648
DOI - 10.1002/adma.202101891
Subject(s) - triboelectric effect , robotics , materials science , electronic skin , tactile sensor , whisker , robot , artificial intelligence , leverage (statistics) , biomimetics , nanotechnology , whiskers , tactile stimuli , computer science , sensory system , neuroscience , metallurgy , composite material , biology
Touch sensing is among the most important sensing capabilities of a human, and the same is true for smart robotics. Current research on tactile sensors is mainly concentrated on electronic skin (e‐skin), but e‐skin is prone to be easily dirtied, damaged, and disturbed after repeated usage, which greatly limits its practical applications in robotics. Here, by mimicking the way that animals explore the environment using hair‐based sensors, a bendable biomimetic whisker mechanoreceptor (BWMR) is designed for robotic tactile sensing. Owing to the advantages of triboelectric nanogenerator technology, the BWMR can convert external mechanical stimuli into electrical signals without a power supply, which is conducive to its widespread applications in robots. Because of the leverage effect of the whisker, the BWMR can distinguish an exciting force of 1.129 μN by amplifying external weak signals, which can be further improved by increasing the whisker length. Real‐time sensing is demonstrated using a BWMR, exhibiting its potential for robotic tactile systems.