Abstract
An analytical model of dielectric-modulated junctionless gate-stack surrounding gate MOSFET for application as a biosensor is presented. An expression for the channel-center potential is obtained by solving the 2-D Poisson's equation using a parabolic-potential approach. An analytical model for the threshold voltage is developed from the minimum channel-center potential to analyze the sensitivity of the biosensor. Moreover, the effects of the variation of the different device dimensional parameters on the sensitivity of the biosensor were investigated in order to study the dielectric modulation effects due to the permittivity changes by the biomolecules present within the nanogap cavity. The analytical model is verified and validated with the help of TCAD device simulations.
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