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Main Authors: Huimin Wang, Shuo Li, Yong Zhang, Mingchao Zhang, Haomin Wang, Xiaoping Liang, Haojie Lu, Yingying Zhang
Format: Artículo Open Access
Published: Wiley 2025
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Online Access:https://onlinelibrary.wiley.com/doi/10.1002/sys3.3
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author Huimin Wang
Shuo Li
Yong Zhang
Mingchao Zhang
Haomin Wang
Xiaoping Liang
Haojie Lu
Yingying Zhang
author_facet Huimin Wang
Shuo Li
Yong Zhang
Mingchao Zhang
Haomin Wang
Xiaoping Liang
Haojie Lu
Yingying Zhang
Huimin Wang
Shuo Li
Yong Zhang
Mingchao Zhang
Haomin Wang
Xiaoping Liang
Haojie Lu
Yingying Zhang
collection Wiley Open Access
contents A Self‐Powered, Shapeable, and Wearable Sensor for Effective Hazard Prevention and Biomechanical Monitoring Huimin Wang Shuo Li Yong Zhang Mingchao Zhang Haomin Wang Xiaoping Liang Haojie Lu Yingying Zhang SmartSys ABSTRACTFlexible and wearable electronics are attracting surging attention due to their potential applications in human health monitoring and precision therapies. Safety hazards including strong magnetic field and electric leakage are big risk factors for human health. It remains challenging to develop self‐powered and wearable safety hazard sensors that could not only be able to monitor human motions but also have functions for detecting potential hazards. In this work, we fabricated a self‐powered, shapeable, and wearable magnetic triboelectric nanogenerator (MTENG) based on ferrofluid, Ecoflex, and carbonized silk fabric that possessed effective hazard prevention and biomechanical motion sensing ability. A peak open‐circuit voltage of 0.7 V and short‐circuit current of 10 μA m−2 can be achieved when magnetic field is changed between 3.5 and 37.1 mT. As a component of triboelectric layer of the MTENG, ferrofluid can substantially extend the range of its sensing capabilities to many hazardous cues such as dangerous magnetic field. Furtherly, the developed multifunctional and self‐powered sensor can be used to monitor human activities such as drinking water and bending finger. This effort opens up a new design opportunity for hazard avoidance wearable electronics and self‐powered sensors. 10.1002/sys3.3 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1002/sys3.3
format Artículo Open Access
id wiley_oa_10_1002_sys3_3
institution Wiley Open Access
license_str_mv http://creativecommons.org/licenses/by/4.0/
publishDate 2025
publisher Wiley
record_format wiley_oa
spellingShingle A Self‐Powered, Shapeable, and Wearable Sensor for Effective Hazard Prevention and Biomechanical Monitoring
Huimin Wang
Shuo Li
Yong Zhang
Mingchao Zhang
Haomin Wang
Xiaoping Liang
Haojie Lu
Yingying Zhang
SmartSys
A Self‐Powered, Shapeable, and Wearable Sensor for Effective Hazard Prevention and Biomechanical Monitoring Huimin Wang Shuo Li Yong Zhang Mingchao Zhang Haomin Wang Xiaoping Liang Haojie Lu Yingying Zhang SmartSys ABSTRACTFlexible and wearable electronics are attracting surging attention due to their potential applications in human health monitoring and precision therapies. Safety hazards including strong magnetic field and electric leakage are big risk factors for human health. It remains challenging to develop self‐powered and wearable safety hazard sensors that could not only be able to monitor human motions but also have functions for detecting potential hazards. In this work, we fabricated a self‐powered, shapeable, and wearable magnetic triboelectric nanogenerator (MTENG) based on ferrofluid, Ecoflex, and carbonized silk fabric that possessed effective hazard prevention and biomechanical motion sensing ability. A peak open‐circuit voltage of 0.7 V and short‐circuit current of 10 μA m−2 can be achieved when magnetic field is changed between 3.5 and 37.1 mT. As a component of triboelectric layer of the MTENG, ferrofluid can substantially extend the range of its sensing capabilities to many hazardous cues such as dangerous magnetic field. Furtherly, the developed multifunctional and self‐powered sensor can be used to monitor human activities such as drinking water and bending finger. This effort opens up a new design opportunity for hazard avoidance wearable electronics and self‐powered sensors. 10.1002/sys3.3 http://creativecommons.org/licenses/by/4.0/
title A Self‐Powered, Shapeable, and Wearable Sensor for Effective Hazard Prevention and Biomechanical Monitoring
topic SmartSys
url https://onlinelibrary.wiley.com/doi/10.1002/sys3.3