Response mechanism of SiC-based MOS field-effect gas sensors

Response mechanism of SiC-based MOS field-effect gas sensors

SiC-based field-effect gas sensors with catalytic platinum electrodes (Pt-MOSiC) have been subjected to a series of gas response measurements. Structural analysis of the Pt electrodes revealed that the gas sensitivity and the selectivity of Pt-MOSiC gas sensors depend on two major parameters: the po...

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Veröffentlicht in:IEEE sensors journal 2002-10, Vol.2 (5), p.394-402
Hauptverfasser: Schalwig, J., Kreisl, P., Ahlers, S., Muller, G.
Format: Artikel
Sprache:eng
Schlagworte:
Devices
Electrodes
Gas detectors
Gas sensors
Gases
Hydrogen
Inorganic materials
Metal oxide semiconductors
Metal oxides
MOSFETs
Platinum
Porosity
Schottky diodes
Silicon carbide
Structural analysis
Temperature sensors
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Zusammenfassung:SiC-based field-effect gas sensors with catalytic platinum electrodes (Pt-MOSiC) have been subjected to a series of gas response measurements. Structural analysis of the Pt electrodes revealed that the gas sensitivity and the selectivity of Pt-MOSiC gas sensors depend on two major parameters: the porosity and the catalytic activity of the Pt electrodes. Pt-MOSiC gas sensors with thick, dense Pt electrodes only exhibit hydrogen sensitivity, whereas Pt-MOSiCs with thin porous gates exhibit a broad range of gas sensitivities similar to resistive metal-oxide gas sensors. A model is put forward that explains the nonhydrogen gas response of Pt-MOSiC devices and of conventional polycrystalline metal-oxide materials on a common basis.
ISSN:1530-437X
1558-1748
DOI:10.1109/JSEN.2002.806214