Mengyuan Wang scite author profile

Direct-bridge growth of aligned GaN nanowires (NWs) over the trench of GaN-coated sapphire substrate was realized in which the issues of parasitic deposition and resultant bypass current were resolved by combining the novel shadowing effect of the deep trench with the surface-passivation effect of the SiO 2 coating. Due to the robust connection and the absence of a contact barrier in bridging NWs, the intrinsic sensing properties of the NW itself can be obtained. For the first time, the gas-sensing properties (e.g., NO 2 ) of the bridging GaN NWs were studied. With the assistance of UV light, the detection limit was improved from 4.5 to 0.5 ppb at room temperature, and the corresponding response time was reduced from 518 to 18 s. This kind of sensor is promising for high sensitivity (detection of less than parts per billion), low power consumption (capable of room-temperature operation), high stability (variation in resistance of <0.8% during 240 days), and in situ monolithic integration.

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A high sensitive chemiresistive-biosensor based on self-assembly grown GaN porous layer

Zhou

Huang

Chen

et al. 2021

Sensors and Actuators B: Chemical

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A lightweight framework for abnormal driving behavior detection

Hou

Wang

Zhao

et al. 2022

Computer Communications

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High sensitivity and low electric power consumption NO₂ sensor using SnO₂ thin film for smart detector design

Wang

Huang

Zhou

2021

J. Phys.: Conf. Ser.

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Mengyuan Wang

Big Trajectory Data: A Survey of Applications and Services

In Situ Growth of Leakage-Free Direct-Bridging GaN Nanowires: Application to Gas Sensors for Long-Term Stability, Low Power Consumption, and Sub-ppb Detection Limit

A high sensitive chemiresistive-biosensor based on self-assembly grown GaN porous layer

A lightweight framework for abnormal driving behavior detection

High sensitivity and low electric power consumption NO₂ sensor using SnO₂ thin film for smart detector design

Contact Info

Product

Resources

About

Mengyuan Wang

Big Trajectory Data: A Survey of Applications and Services

In Situ Growth of Leakage-Free Direct-Bridging GaN Nanowires: Application to Gas Sensors for Long-Term Stability, Low Power Consumption, and Sub-ppb Detection Limit

A high sensitive chemiresistive-biosensor based on self-assembly grown GaN porous layer

A lightweight framework for abnormal driving behavior detection

High sensitivity and low electric power consumption NO2 sensor using SnO2 thin film for smart detector design

Contact Info

Product

Resources

About

High sensitivity and low electric power consumption NO₂ sensor using SnO₂ thin film for smart detector design