Tuning of the Sensitivity of Porous Silicon JFET Gas Sensors
In this work, electrical tuning of the sensitivity of an integrated solid-state gas sensor is demonstrated. The sensor, namely PSJFET-Porous Silicon Junction Field Effect Transistor, consists of a p-channel JFET with an additional PS sensing gate on its top. The sensor current value is proportional...
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Format: | Tagungsbericht |
Sprache: | eng |
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Zusammenfassung: | In this work, electrical tuning of the sensitivity of an integrated solid-state gas sensor is demonstrated. The sensor, namely PSJFET-Porous Silicon Junction Field Effect Transistor, consists of a p-channel JFET with an additional PS sensing gate on its top. The sensor current value is proportional to the NO2 concentration in the environment, that is I(DS)= S*[NO2], at least in the range investigated (between 100 ppb and 500 ppb). Interestingly, and differently from most of gas sensors reported in the literature, the normalized sensor sensitivity S=dI(DS)/(I(DS0)*d[NO2]) can be effectively tuned by changing the voltage value of the electrical gate terminal of the JFET device. This feature allows the fabrication of gas sensors with superior performances: for example, it can be exploited to compensate for aging-induced degradation of the sensitivity during the sensor life-time. It is worthy of mentioning that, such an effect can be obtained without any increase of the sensor power dissipation, due to the high impedance of the gate terminal of the PSJFET. |
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ISSN: | 0094-243X |
DOI: | 10.1063/1.3156559 |