2023
DOI: 10.1038/s41598-023-38651-3
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Impact of trap-related non-idealities on the performance of a novel TFET-based biosensor with dual doping-less tunneling junction

Abstract: This article presents a novel dielectric-modulated biosensor based on a tunneling field-effect transistor. It comprises a dual doping-less tunneling junction that lies above an n+ drain region. By employing the wet-etching technique, two cavities are carved in the gate dielectric, and with the entry of various biomolecules into the cavities, the electrostatic integrity of the gate changes, accordingly. Numerical simulations, carried out by the Silvaco ATLAS device simulator, show that including trap-assisted t… Show more

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Cited by 8 publications
(3 citation statements)
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References 27 publications
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“… Ref. Year Architecture Material V Bias (V) 38 2019 Double gate junction-less TFET Si ~ 100 1.2 39 2021 Extended gate HTFET InGaAs/Si 90 1.5 40 2021 FinFET GaAs 1−x Sb x 98.4 1 41 2021 Negative capacitance FinFET Si 99.99 1 27 2023 Vertical dual doping-less tunneling junction Si 98.58 1.5 This work 2023 Double gate TFET Si 74.47 1 …”
Section: Simulation Resultsmentioning
confidence: 99%
“… Ref. Year Architecture Material V Bias (V) 38 2019 Double gate junction-less TFET Si ~ 100 1.2 39 2021 Extended gate HTFET InGaAs/Si 90 1.5 40 2021 FinFET GaAs 1−x Sb x 98.4 1 41 2021 Negative capacitance FinFET Si 99.99 1 27 2023 Vertical dual doping-less tunneling junction Si 98.58 1.5 This work 2023 Double gate TFET Si 74.47 1 …”
Section: Simulation Resultsmentioning
confidence: 99%
“…Despite all of these advantages, a strong prevalence of parasitic capacitance in FinFET devices [23] is likely to result in large overlap of the immobilized biomolecule capacitance with the device capacitance, which could adversely impact the sensitivity of short-channel FinFET-based biosensors [24,25]. Also, even with excellent I ON /I OFF and steep switching reports in TFET devices [26][27][28][29][30], a great disparity in measured and simulated device behavior has been seen [31]. In addition, biosensors based on TFET devices are likely to be more susceptible to low-frequency noise [33], along with observation of limits of the scalability and hence sensitivity due to a strong dependence on the size and position of the cavity (located close to the tunneling barrier [34]).…”
Section: Introductionmentioning
confidence: 99%
“…While some studies have investigated line tunneling mechanisms to simplify manufacturing and increase conduction current [ 14 17 ], precise ion implantation in miniature devices remains a challenge. Alternative strategies, such as charge plasma [ 18 20 ] and advanced gate configurations [ 21 , 22 ], aimed to simplify the doping process and boost on-current but have not provided a complete solution. Noteworthy, some alternative works try to enhance line tunneling using symmetry structure.…”
Section: Introductionmentioning
confidence: 99%