Analysis of biosensing performance of Trench Double Gate Junctionless Field Effect Transistor

Abstract

Diversified biomolecules sensing is turning out to be the most promising area of research due to ever decreasing healthy lifestyle. Field effect transistorized biosensing approach puts its signature as label free, portable and also very careful pathway. In this present work a trench structured dielectric modulated double gate junction-less field effect transistor (TG-DMJLFET) is urbanized using SILVACO ATLAS simulator for label free detection of biomolecules. The developed structure has two vertically positioned gates in distinct trenches. For immobilizing biomolecules, two cavities are formed in the gate oxide region for dielectric modulation. The dielectric constant (k) has been varied over a wide range of 1.54 (Uricase) to 12(Gelatin) signifying the sensing of diverse charged biomolecules. The sensitivity is evaluated in terms of threshold voltage shift and  transconductance . The in-depth electrostatic analysis is illustrated in terms of central potential ,energy band diagram ,drive current and also by the depiction of the electric field .In case of  charged biomolecules, the shift in threshold voltage is obtained as 350 mV for change in the di-electric constant (k) ranging from 1.54 to 12. The transconductance alteration is observed as 1.94×10-5 when the k is changed from 3.46 to 12 .The device has showed excellent performance in biomolecules sensing.