A physical model for threshold voltage instability in Si/sub 3/N/sub 4/-gate H/sup +/-sensitive FET's (pH ISFET's)

A physical model for threshold voltage instability in Si/sub 3/N/sub 4/-gate H/sup +/-sensitive FET's (pH ISFET's)

A physical model is presented which quantitatively describes the threshold voltage instability, commonly known as drift, in n-channel Si/sub 3/N/sub 4/-gate pH ISFET's. The origin of the so-called drift is postulated to be associated with the relatively slow conversion of the silicon nitride su...

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Veröffentlicht in:IEEE transactions on electron devices 1998-06, Vol.45 (6), p.1239-1245
Hauptverfasser: Jamasb, S., Collins, S.D., Smith, R.L.
Format: Artikel
Sprache:eng
Schlagworte:
Capacitance
Dielectrics and electrical insulation
Dispersion
Electrons
FETs
Packaging
Polarization
Sensor phenomena and characterization
Silicon
Threshold voltage
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Zusammenfassung:A physical model is presented which quantitatively describes the threshold voltage instability, commonly known as drift, in n-channel Si/sub 3/N/sub 4/-gate pH ISFET's. The origin of the so-called drift is postulated to be associated with the relatively slow conversion of the silicon nitride surface to a hydrated SiO/sub 2/ or oxynitride layer. The rate of hydration is modeled by a hopping and/or trap-limited transport mechanism known as dispersive transport. Hydration leads to a decrease in the overall insulator capacitance with time, which gives rise to a monotonic temporal increase in the threshold voltage.
ISSN:0018-9383
1557-9646
DOI:10.1109/16.678525