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Modeling and Simulation of Gate Engineered Gate All-Around MOSFET for Bio-Molecule Detection
Objectives: In this paper, modeling and simulation of a triple material gate stack gate all around MOSFET biosensor for the detection of biomolecules under dry environment conditions has been carried out. Method: A nanocavity is formed in the proposed device and its surface potential values are estimated by solving 2D Poisson and Schrödinger equations using Leibmann’s iteration method. The surface potential values are obtained for both the presence and absence of biomolecules. To the best of our knowledge, the effect of engineering on the gate stack gate all around MOSFET biosensor characteristics has been studied for the first time and its characteristics such as sensitivity and drain current are obtained. Findings: It is found that the implementation of gate engineering in the gate stack gate all around MOSFET improves the characteristics of the device. Improvements: The proposed device may be improved by implementing the device as an optical biosensor for detection of biomolecules.
Keywords
Bio-Molecule Detection, Gate All Around MOSFET, Gate Engineering, Modelling, Simulation.
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