期刊
ACS SENSORS
卷 -, 期 -, 页码 -出版社
AMER CHEMICAL SOC
DOI: 10.1021/acssensors.2c01423
关键词
AlN piezoelectric cantilever; environmental sensor; human-machine interaction; machine learning; MoS2; multifunctional sensor
资金
- Zhejiang Provincial Natural Science Foundation of China [LZ19E050002]
- National Natural Science Foundation of China [NSFC 51875521, 52175552]
- UK Engineering and Physical Sciences Research Council (EPSRC) [EP/P018998/1]
- Royal Society UK [IEC/NSFC/201078]
- NSFC
This paper presents a multifunctional environmental sensor based on a single sensing element. By utilizing the changes in multiple properties of MoS2 after its exposure to different environments, the sensor achieves accurate detection of humidity, temperature, and CO2 concentrations. It exhibits high resolution, low hysteresis, fast response and recovery, and overcomes signal interferences among multiple sensing elements, demonstrating great potential in human-machine interactions and health monitoring.
Multifunctional environmental sensing is crucial for various applications in agriculture, pollution monitoring, and disease diagnosis. However, most of these sensing systems consist of multiple sensors, leading to significantly increased dimensions, energy consumption, and structural complexity. They also often suffer from signal interferences among multiple sensing elements. Herein, we report a multifunctional environmental sensor based on one single sensing element. A MoS2 film was deposited on the surface of a piezoelectric microcantilever (300 x 1000 mu m(2)) and used as both a sensing layer and top electrode to make full use of the changes in multiple properties of MoS2 after its exposure to various environments. The proposed sensor has been demonstrated for humidity detection and achieved high resolution (0.3% RH), low hysteresis (5.6%), and fast response (1 s) and recovery (2.8 s). Based on the analysis of the magnitude spectra for transmission using machine learning algorithms, the sensor accurately quantifies temperatures and CO2 concentrations in the interference of humidity with accuracies of 91.9 and 92.1%, respectively. Furthermore, the sensor has been successfully demonstrated for real-time detection of humidity and temperature or CO2 concentrations for various applications, revealing its great potential in human-machine interactions and health monitoring of plants and human beings.
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