Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces

Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces

Wearable sensors with water resistance and mechanical durability are of great value in dealing with long‐term movement and remote control in harsh environments. However, achieving high sensitivity with long‐term stability and real‐time remote control in a watery environment is still a challenge. Her...

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Bibliographic Details
Main Authors: Shengshun Duan, Binghao Wang, Yucheng Lin, Yinghui Li, Di Zhu, Jun Wu, Jun Xia, Wei Lei, Baoping Wang
Format: Article
Language:English
Published: Wiley 2021-09-01
Series:Advanced Intelligent Systems
Subjects:
electronic skin
human–robot remote control
laser-induced graphene
strain sensors
water resistance
Online Access:https://doi.org/10.1002/aisy.202100056
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spelling doaj-14d2fbfe8b10414e85b0e55d7b5dc5562021-09-21T11:14:14ZengWileyAdvanced Intelligent Systems2640-45672021-09-0139n/an/a10.1002/aisy.202100056Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine InterfacesShengshun Duan0Binghao Wang1Yucheng Lin2Yinghui Li3Di Zhu4Jun Wu5Jun Xia6Wei Lei7Baoping Wang8Joint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaJoint International Research Laboratory of Information Display and Visualization School of Electronic Science and Engineering Southeast University Nanjing 210096 ChinaWearable sensors with water resistance and mechanical durability are of great value in dealing with long‐term movement and remote control in harsh environments. However, achieving high sensitivity with long‐term stability and real‐time remote control in a watery environment is still a challenge. Herein, the waterproof wearable sensors with good mechanical robustness composed of laser‐induced graphene and in situ‐coated protective silicone layers are reported. By being integrated with high‐capacitance ion‐gel dielectrics, the conformal sensors can detect multiple stimuli, including strain, temperature, and pressure. The long‐term water resistance of strain sensors is evaluated by continuously monitoring the resistance in underwater, sweat, and saline environment for up to 5.5 h. Underwater wireless remote control of a robotic hand is further demonstrated by mounting five sensor arrays. Moreover, different finger gestures are well recognized, making these sensor devices promising candidates for versatile waterproof wearable electronics and robotics technology.https://doi.org/10.1002/aisy.202100056electronic skinhuman–robot remote controllaser-induced graphenestrain sensorswater resistance
collection DOAJ
language English
format Article
sources DOAJ
author Shengshun Duan
Binghao Wang
Yucheng Lin
Yinghui Li
Di Zhu
Jun Wu
Jun Xia
Wei Lei
Baoping Wang
spellingShingle Shengshun Duan
Binghao Wang
Yucheng Lin
Yinghui Li
Di Zhu
Jun Wu
Jun Xia
Wei Lei
Baoping Wang
Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces
Advanced Intelligent Systems
electronic skin
human–robot remote control
laser-induced graphene
strain sensors
water resistance
author_facet Shengshun Duan
Binghao Wang
Yucheng Lin
Yinghui Li
Di Zhu
Jun Wu
Jun Xia
Wei Lei
Baoping Wang
author_sort Shengshun Duan
title Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces
title_short Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces
title_full Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces
title_fullStr Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces
title_full_unstemmed Waterproof Mechanically Robust Multifunctional Conformal Sensors for Underwater Interactive Human–Machine Interfaces
title_sort waterproof mechanically robust multifunctional conformal sensors for underwater interactive human–machine interfaces
publisher Wiley
series Advanced Intelligent Systems
issn 2640-4567
publishDate 2021-09-01
description Wearable sensors with water resistance and mechanical durability are of great value in dealing with long‐term movement and remote control in harsh environments. However, achieving high sensitivity with long‐term stability and real‐time remote control in a watery environment is still a challenge. Herein, the waterproof wearable sensors with good mechanical robustness composed of laser‐induced graphene and in situ‐coated protective silicone layers are reported. By being integrated with high‐capacitance ion‐gel dielectrics, the conformal sensors can detect multiple stimuli, including strain, temperature, and pressure. The long‐term water resistance of strain sensors is evaluated by continuously monitoring the resistance in underwater, sweat, and saline environment for up to 5.5 h. Underwater wireless remote control of a robotic hand is further demonstrated by mounting five sensor arrays. Moreover, different finger gestures are well recognized, making these sensor devices promising candidates for versatile waterproof wearable electronics and robotics technology.
topic electronic skin
human–robot remote control
laser-induced graphene
strain sensors
water resistance
url https://doi.org/10.1002/aisy.202100056
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