A Comprehensive Study on Tunneling Field Effect Transistor using Non-local Band-to-Band Tunneling Model

Abstract: In this research work, a n-type silicon tunneling field effect transistor (TFET) has been designed and investigation has been carried out on its performances by altering different device parameters such as gate insulator dielectric constant, channel thickness, gate geometry, and channel length. The performances have been evaluated based on subthreshold swing, threshold voltage and I on /I off ratio of the devices. The goal is to fin… Show more

“…The SS of a TFET depends significantly on the tunneling phenomenon [38]. The plot in Figure 15 reflects that, for neutral biomolecules, SS decreases with an increase in the k-value.…”

“…It is preferred to etch the cavity at the tunnel junction for better impact and control. The simulations were performed using the Synopsis TCAD tool [37], and a non-local band was incorporated into the band-tunneling model [38]. The nonlocal model defines the electric field for each mesh and proves to be more accurate.…”

Modeling and Simulation of a TFET-Based Label-Free Biosensor with Enhanced Sensitivity

“…The SS of a TFET depends significantly on the tunneling phenomenon [38]. The plot in Figure 15 reflects that, for neutral biomolecules, SS decreases with an increase in the k-value.…”

“…It is preferred to etch the cavity at the tunnel junction for better impact and control. The simulations were performed using the Synopsis TCAD tool [37], and a non-local band was incorporated into the band-tunneling model [38]. The nonlocal model defines the electric field for each mesh and proves to be more accurate.…”

Modeling and Simulation of a TFET-Based Label-Free Biosensor with Enhanced Sensitivity

Rapid Detection of Biomolecules in a Junction Less Tunnel Field-Effect Transistor (JL-TFET) Biosensor

WITHDRAWN: SS < 30 mV/dec; Hybrid tunnel FET 3D analytical model for IoT applications