Analysis of High-Performance TFET-based Biosensors for Bioanalytes Detection

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P.Hepzibai; N.Arumugam; A. Sharon Geege; T.S.Arun Samuel

Analysis of High-Performance TFET-based Biosensors for Bioanalytes Detection

Authors: P.Hepzibai, N.Arumugam, A. Sharon Geege, T.S.Arun Samuel

Unique Paper ID: 186800
PageNo: 2873-2882

Keywords: bioanalytes sensitivity TFET subthreshold swing

Abstract:
Identifying bioanalytes with biosensors is a critical field of research in technological advancement. FET-based biosensors are widely used due to their label-free detection capability, high sensitivity, and low power consumption. These sensors have fast response times, even at low concentrations, and their sensitivity is affected by device size. However, constraints include short-channel effects and excessive power dissipation caused by thermionic emission of charge carriers. To solve these disadvantages, researchers are shifting to TFET-based biosensors, which offer steep subthreshold swing (<60 mV/decade), low power consumption, and increased carrier transport efficiency. This review investigates the evolution and applications of TFET-based biosensors, focusing on qualitative and quantitative sensitivity assessments across various device topologies. It also examines methodologies that improve performance and sensitivity parameters, providing insights into future biosensor advancements.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{186800,
        author = {P.Hepzibai and N.Arumugam and A. Sharon Geege and T.S.Arun Samuel},
        title = {Analysis of High-Performance TFET-based Biosensors for Bioanalytes Detection},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {12},
        number = {6},
        pages = {2873-2882},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=186800},
        abstract = {Identifying bioanalytes with biosensors is a critical field of research in technological advancement. FET-based biosensors are widely used due to their label-free detection capability, high sensitivity, and low power consumption. These sensors have fast response times, even at low concentrations, and their sensitivity is affected by device size. However, constraints include short-channel effects and excessive power dissipation caused by thermionic emission of charge carriers. To solve these disadvantages, researchers are shifting to TFET-based biosensors, which offer steep subthreshold swing (<60 mV/decade), low power consumption, and increased carrier transport efficiency. This review investigates the evolution and applications of TFET-based biosensors, focusing on qualitative and quantitative sensitivity assessments across various device topologies. It also examines methodologies that improve performance and sensitivity parameters, providing insights into future biosensor advancements.},
        keywords = {bioanalytes, sensitivity, TFET, subthreshold swing},
        month = {November},
        }

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Cite This Article

P.Hepzibai, , & N.Arumugam, , & Geege, A. S., & Samuel, T. (2025). Analysis of High-Performance TFET-based Biosensors for Bioanalytes Detection. International Journal of Innovative Research in Technology (IJIRT), 12(6), 2873–2882.

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