Self‐Powered Tactile Sensor Array Systems Based on the Triboelectric Effect

With the arrival of intelligent terminals, tactile sensors which are capable of sensing various external physical stimuli are considered among the most vital devices for the next generation of smart electronics. To create a self‐powered tactile sensor system that can function sustainably and continu...

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Published in:Advanced functional materials 2019-10, Vol.29 (41), p.n/a
Main Authors: Tao, Juan, Bao, Rongrong, Wang, Xiandi, Peng, Yiyao, Li, Jing, Fu, Sheng, Pan, Caofeng, Wang, Zhong Lin
Format: Article
Language:English
Subjects:
Contact pressure
Electrodes
Mapping
Materials science
self‐powered systems
Sensor arrays
Sensors
tactile sensors
Tactile sensors (robotics)
Triboelectric effect
Vertical separation
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cited_by cdi_FETCH-LOGICAL-c3179-3be9d75b8943ad596195c1cb88a986f9a4d6e1e994affb08c0e62162e62b90013
cites cdi_FETCH-LOGICAL-c3179-3be9d75b8943ad596195c1cb88a986f9a4d6e1e994affb08c0e62162e62b90013
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container_issue 41
container_start_page
container_title Advanced functional materials
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creator Tao, Juan
Bao, Rongrong
Wang, Xiandi
Peng, Yiyao
Li, Jing
Fu, Sheng
Pan, Caofeng
Wang, Zhong Lin
description With the arrival of intelligent terminals, tactile sensors which are capable of sensing various external physical stimuli are considered among the most vital devices for the next generation of smart electronics. To create a self‐powered tactile sensor system that can function sustainably and continuously without an external power source is of crucial significance. An overview of the development in self‐powered tactile sensor array system based on the triboelectric effect is systematically presented. The combination of multi‐functionalization and high performance of tactile sensors aimed at achieving highly comprehensive performance is presented. For the tactile sensor unit, a development is summarized based on the two primary modes which are vertical contact–separation and single‐electrode. For the pressure mapping array, the resolution is significantly enhanced by the novel cross‐type configuration based on the single‐electrode mode. Integrated with other mechanisms, the performance will be further elevated by broadening of the detect range and realizing of visualization of pressure imaging. Then, two main applications of human–machine interaction (HMI) and trajectory monitoring are comprehensively summarized. Finally, the future perspectives of self‐powered tactile sensor system based on triboelectric effect are discussed. Recent advancements in and perspectives on self‐powered tactile sensor array systems based on the triboelectric effect are systematically summarized. The tactile sensor unit and array from the combination of high performance and multifunctionality are described, and based on which, numerous self‐powered system applications especially in the human–machine interface and trajectory monitoring are highlighted.
doi_str_mv 10.1002/adfm.201806379
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subjects Contact pressure
Electrodes
Mapping
Materials science
self‐powered systems
Sensor arrays
Sensors
tactile sensors
Tactile sensors (robotics)
Triboelectric effect
Vertical separation
title Self‐Powered Tactile Sensor Array Systems Based on the Triboelectric Effect
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