Zhaoyang Li scite author profile

A smart face mask that can conveniently monitor breath information is beneficial for maintaining personal health and preventing the spread of diseases. However, some challenges still need to be addressed before such devices can be of practical use. One key challenge is to develop a pressure sensor that is easily triggered by low pressure and has excellent stability as well as electrical and mechanical properties. In this study, a wireless smart face mask is designed by integrating an ultrathin self‐powered pressure sensor and a compact readout circuit with a normal face mask. The pressure sensor is the thinnest (totally compressed thickness of ≈5.5 µm) and lightest (total weight of ≈4.5 mg) electrostatic pressure sensor capable of achieving a peak open‐circuit voltage of up to ≈10 V when stimulated by airflow, which endows the sensor with the advantage of readout circuit miniaturization and makes the breath‐monitoring system portable and wearable. To demonstrate the capabilities of the smart face mask, it is used to wirelessly measure and analyze the various breath conditions of multiple testers.

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Measurement of Distorted Power-Frequency Electric Field With Integrated Optical Sensor

Yuan

Cui

et al. 2019

IEEE Trans. Instrum. Meas.

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Stability and decay of surface electrostatic charges in liquids

Long

Zhong

2021

Nano Energy

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A miniaturized mechanical antenna based on FEP/THV unipolar electrets for extremely low frequency transmission

Cui

Li³

et al. 2022

Microsyst Nanoeng

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An electret-based mechanical antenna (EBMA), which can transmit extremely low frequency (ELF) electromagnetic signals, has the advantages of miniaturization and high transmitting efficiency, with great potential applications in air, underwater, and underground communications. To improve the charge density of the electret, which is a key factor in determining the radiation performance of an EBMA, this work proposes a fluorinated ethylene propylene/terpolymer of tetrafluoroethylene, hexafluoropropylene and vinylidene fluoride (FEP/THV) unipolar electret exhibiting negative polarity, reaching a total charge density up to −0.46 mC/m2 for each layer of electret. Long transmission distances can be achieved in sea water, soil, and air using a 3-layer-FEP/THV-based EBMA with a compact volume of 5 × 10−4 m3. As an application demonstration, binary ASCII-coded ELF information of “BUAA” is successfully transmitted with a power consumption < 5 W.

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Consistency Test of Ion-Flow Density Measurement System Using an Improved Gray Relational Analysis Method

Yuan

Cui

et al. 2019

IEEE Trans. Electromagn. Compat.

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Zhaoyang Li

Smart Face Mask Based on an Ultrathin Pressure Sensor for Wireless Monitoring of Breath Conditions

Measurement of Distorted Power-Frequency Electric Field With Integrated Optical Sensor

Stability and decay of surface electrostatic charges in liquids

A miniaturized mechanical antenna based on FEP/THV unipolar electrets for extremely low frequency transmission

Consistency Test of Ion-Flow Density Measurement System Using an Improved Gray Relational Analysis Method

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