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MOSFE-Capacitor Silicon Carbide-Based Hydrogen Gas Sensors

А. В. Литвинов, Maya Etrekova, B. Podlepetsky, Nikolay Samotaev, Konstantin Oblov, Alexey V. Afanasyev, Vladimir A. Ilyin

2023Sensors15 citationsDOIOpen Access PDF

Abstract

The features of the wide band gap SiC semiconductor use in the capacitive MOSFE sensors’ structure in terms of the hydrogen gas sensitivity effect, the response speed, and the measuring signals’ optimal parameters are studied. Sensors in a high-temperature ceramic housing with the Me/Ta2O5/SiCn+/4H-SiC structures and two types of gas-sensitive electrodes were made: Palladium and Platinum. The effectiveness of using Platinum as an alternative to Palladium in the MOSFE-Capacitor (MOSFEC) gas sensors’ high-temperature design is evaluated. It is shown that, compared with Silicon, the use of Silicon Carbide increases the response rate, while maintaining the sensors’ high hydrogen sensitivity. The operating temperature and test signal frequency influence for measuring the sensor’s capacitance on the sensitivity to H2 have been studied.

Topics & Concepts

Silicon carbideMaterials sciencePlatinumCapacitive sensingHydrogenCapacitorCapacitanceSilicon bandgap temperature sensorOptoelectronicsCeramicPalladiumSiliconElectrodeSensitivity (control systems)SemiconductorOperating temperatureHydrogen sensorElectronic engineeringElectrical engineeringComposite materialChemistryEngineeringVoltageCatalysisBiochemistryPhysical chemistryDropout voltageOrganic chemistryVoltage dividerGas Sensing Nanomaterials and SensorsAnalytical Chemistry and SensorsElectrical and Thermal Properties of Materials
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