2020
DOI: 10.3390/mi11020205
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A Front-Side Microfabricated Thermoresistive Gas Flow Sensor for High-Performance, Low-Cost and High-Yield Volume Production

Abstract: In this paper, we present a novel thermoresistive gas flow sensor with a high-yield and low-cost volume production by using front-side microfabricated technology. To best improve the thermal resistance, a micro-air-trench between the heater and the thermistors was opened to minimize the heat loss from the heater to the silicon substrate. Two types of gas flow sensors were designed with the optimal thermal-insulation configuration and fabricated by a single-wafer-based single-side process in (111) wafers, where… Show more

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Cited by 4 publications
(2 citation statements)
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“…In order to shrink the sensor chip-size, reduce the fabrication cost and realize IC-Foundry compatible fabrication, in 2020 Xue et al designed and fabricated a tiny-sized thermoresistive gas flow sensor by using front-side microfabrication technologies [37]. The proposed flow sensor mainly consisted of three dielectric film which were separated from each other by using an air trench, A Pt microheater was located on the intermediate dielectric diaphragm, and the thermistors were positioned on the other two dielectric membranes and symmetrically distributed about the heater.…”
Section: Thermistor-based Microflow Sensorsmentioning
confidence: 99%
See 1 more Smart Citation
“…In order to shrink the sensor chip-size, reduce the fabrication cost and realize IC-Foundry compatible fabrication, in 2020 Xue et al designed and fabricated a tiny-sized thermoresistive gas flow sensor by using front-side microfabrication technologies [37]. The proposed flow sensor mainly consisted of three dielectric film which were separated from each other by using an air trench, A Pt microheater was located on the intermediate dielectric diaphragm, and the thermistors were positioned on the other two dielectric membranes and symmetrically distributed about the heater.…”
Section: Thermistor-based Microflow Sensorsmentioning
confidence: 99%
“…Some specific solution methods had been utilized, including optimization of the dielectric film structure (e.g. using meshed membrane [36,37,41,43,92]), reduction of structural thermal conductivity (e.g. using porous silicon to replace SC silicon [38]) and choice of high Seebeckcoefficient thermocouple materials [41,43].…”
Section: Challenges and Perspective On Silicon-based Thermal Flow Sen...mentioning
confidence: 99%