Mechanism and Suppression of Physisorbed-Water-Caused Hysteresis in Graphene FET Sensors

ACS SENSORS

BARTOŠÍK, M.; MACH, J.; PIASTEK, J.; NEZVAL, D.; KONEČNÝ, M.; ŠVARC, V.; ENSSLIN, K.; ŠIKOLA, T., 2020: Mechanism and Suppression of Physisorbed-Water-Caused Hysteresis in Graphene FET Sensors. ACS SENSORS 5(9), p. 2940 - 10, doi: 10.1021/acssensors.0c01441; FULL TEXT
(EVAPORATOR, DWL, DIENER)

Equipment:

Electron beam evaporator BESTEC (EVAPORATOR)
UV Direct Write Laser system Heidelberg Instruments DWL 66-fs (DWL)
Resist stripper Diener electronic NANO Plasma cleaner (DIENER)

Research Groups:

CF: CEITEC Nano
Fabrication and Characterisation of Nanostructures
Development of Methods for Analysis and Measuring

CEITEC authors:

Miroslav Bartošík, Ph.D.
Jindřich Mach, Ph.D.
David Nezval, Ph.D.
Vojtěch Švarc, Ph.D.
Jakub Piastek, Ph.D.
Martin Konečný
Prof. Tomáš Šikola

Mechanism and Suppression of Physisorbed-Water-Caused Hysteresis in Graphene FET Sensors

ACS SENSORS

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