Self-powered flexible antibacterial tactile sensor based on triboelectric-piezoelectric-pyroelectric multi-effect coupling mechanism

Tactile sensors have attracted great interest due to the huge potential applications. Skin-like multifunctional capabilities to sense multiple stimuli are increasingly desired to fulfill practical demands. Integration of multiple sensors with different functions is the most common approach, but requ...

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Bibliographic Details
Published in:Nano energy 2019-12, Vol.66, p.104105, Article 104105
Main Authors: Ma, Mingyuan, Zhang, Zheng, Zhao, Zening, Liao, Qingliang, Kang, Zhuo, Gao, Fangfang, Zhao, Xuan, Zhang, Yue
Format: Article
Language:English
Subjects:
Antibacterial
Multi-effect coupling mechanism
Multifunctional sensing
Self-powered
Tactile sensor
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Summary:Tactile sensors have attracted great interest due to the huge potential applications. Skin-like multifunctional capabilities to sense multiple stimuli are increasingly desired to fulfill practical demands. Integration of multiple sensors with different functions is the most common approach, but requiring sophisticated fabricated processes. Here, a self-powered flexible antibacterial tactile sensor has been proposed which is based on triboelectric-piezoelectric-pyroelectric multi-effect coupling mechanism. The triboelectric-piezoelectric-pyroelectric multi-effect is utilized to differentiate external stimuli by analyzing the coupled bimodal voltage signal with response time difference. It permits multifunctional sensing in a single pixel, which can greatly reduce the structural complexity. The sensitivity of pressure and temperature monitoring is 0.092 V/KPa and 0.11 V/°C, respectively. Besides, it can operate without any external power attributing to the sensing mechanisms. Furthermore, the sensor performs excellent antibacterial property by doping Ag nanowires into the contact layer. This work can become promising candidate in soft robotics, artificial prosthetics and healthcare monitors by virtue of multifunctional, self-powered, antibacterial and easy-fabrication merits. [Display omitted] •A self-powered flexible antibacterial and multifunctional tactile sensor based on multi-effect coupling mechanism has been developed.•The applied pressure and temperature can be differentiated through analyzing the coupled bimodal voltage signal with response time difference. Experiments have been taken to confirm high accuracy of the theoretical simulation.•The device performs excellent antibacterial property by the modification of its surface layer, which broadens the applications in self-health protection field.
ISSN:2211-2855
DOI:10.1016/j.nanoen.2019.104105