Igor Brouk scite author profile

There is an ongoing effort to fabricate miniature, low cost, sensitive, and selective gas sensors for domestic and industrial uses. This paper presents a miniature combustion-type gas sensor (GMOS) based on a thermal sensor, where a micromachined CMOS–SOI transistor integrated with a catalytic reaction plate acts as a sensing element. This study emphasizes GMOS performance modeling, technological aspects, and sensing-selectivity issues. Two deposition techniques of a Pt catalytic layer suitable for wafer-level processing were compared, magnetron sputtering and nanoparticle inkjet printing. Both techniques have been useful for the fabrication of GMOS sensor, with good sensitivity to ethanol and acetone in the air. However, a printed Pt nanoparticle catalyst provides almost twice as much sensitivity as compared to that of the sputtered catalyst. Moreover, sensing selectivity in the ethanol/acetone gas mixture was demonstrated for the GMOS with a Pt nanoparticle catalyst. These advantages of GMOS allow for the fabrication of a low-cost gas sensor that requires a low power, and make it a promising technology for future smartphones, wearables, and Internet of Things (IoT) applications.

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Measurements and Simulations of Low Dark Count Rate Single Photon Avalanche Diode Device in a Low Voltage 180-nm CMOS Image Sensor Technology

Leitner

Feiningstein

Turchetta

et al. 2013

IEEE Trans. Electron Devices

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A New Pellistor-Like Gas Sensor Based on Micromachined CMOS Transistor

Nemirovsky

Stolyarova

Blank

et al. 2018

IEEE Trans. Electron Devices

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Modeling the Performance of Nano Machined CMOS Transistors for Uncooled IR Sensing

Zviagintsev

Blank

Brouk

et al. 2017

IEEE Trans. Electron Devices

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Igor Brouk

1/f noise in CMOS transistors for analog applications

Novel Miniature and Selective Combustion-Type CMOS Gas Sensor for Gas-Mixture Analysis—Part 1: Emphasis on Chemical Aspects

Measurements and Simulations of Low Dark Count Rate Single Photon Avalanche Diode Device in a Low Voltage 180-nm CMOS Image Sensor Technology

A New Pellistor-Like Gas Sensor Based on Micromachined CMOS Transistor

Modeling the Performance of Nano Machined CMOS Transistors for Uncooled IR Sensing

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