Standard CMOS Fabrication of a Sensitive Fully Depleted Electrolyte-Insulator-Semiconductor Field Effect Transistor for Biosensor Applications

Gil Shalev; Ariel Cohen; Amihood Doron; Andrew Machauf; Moran Horesh; Udi Virobnik; Daniela Ullien; Ilan Levy

doi:10.3390/s90604366

Standard CMOS Fabrication of a Sensitive Fully Depleted Electrolyte-Insulator-Semiconductor Field Effect Transistor for Biosensor Applications

Sensors (Basel). 2009;9(6):4366-79. doi: 10.3390/s90604366. Epub 2009 Jun 4.

Authors

Gil Shalev¹, Ariel Cohen, Amihood Doron, Andrew Machauf, Moran Horesh, Udi Virobnik, Daniela Ullien, Ilan Levy

Affiliation

¹ Intel Research Israel, Intel Electronics, Jerusalem 91031, Israel; E-Mails: gil.shalev@intel.com (G.S.); ariel.cohen@intel.com (A.C.); amihood.doron@intel.com (A.D.); andrew.machauf@intel.com (A.M.); moran.horesh@intel.com (M.H.); udi.virobnik@intel.com (U.V.); daniela.ullien@intel.com (D.U).

Abstract

Microfabricated semiconductor devices are becoming increasingly relevant for detection of biological and chemical components. The integration of active biological materials together with sensitive transducers offers the possibility of generating highly sensitive, specific, selective and reliable biosensors. This paper presents the fabrication of a sensitive, fully depleted (FD), electrolyte-insulator-semiconductor field-effect transistor (EISFET) made with a silicon-on-insulator (SOI) wafer of a thin 10-30 nm active SOI layer. Initial results are presented for device operation in solutions and for bio-sensing. Here we report the first step towards a high volume manufacturing of a CMOS-based biosensor that will enable various types of applications including medical and environmental sensing.

Keywords: CMOS; EISFET; biosensors; fully depleted.