用于无标记检测中性生物分子的无结矩形栅全周 FET 生物传感器的性能评估

Ronak Singh, Yogesh Pratap, Mridula Gupta
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引用次数: 0

摘要

在这项工作中,演示并探索了一种无介质调制结矩形栅极全周场效应晶体管(DM-JLRGAA-FET),用于无标记检测中性生物分子。与传统结构相比,所提出的生物传感器的传感和共轭性能有了显著提高,这得益于其非凡的结构,该结构通过大幅抑制 SCE(短沟道效应)和加强栅极对沟道静电的控制,提高了传感器的性能。利用漏极电流灵敏度、表面电位、跨导和输出电导来确定拟议生物传感器的传感能力。所提出的生物传感器对角蛋白生物分子的最大漏极电流灵敏度为 8.09。在两种或多种生物分子共轭的情况下,检测会变得相当困难。此外,还利用受 Bruggeman 模型制约的有效介电常数方法对共轭分析进行了研究。研究了不同浓度的链霉亲和素-角蛋白和链霉亲和素-玉米蛋白在空腔中的共轭情况。链霉亲和素与角蛋白的共轭显示出最高的灵敏度(18.5%)。针对肖特基源/漏接触工程和沟道材料工程,对拟议生物传感器的传感性能进行了优化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Performance assessment of dielectrically modulated junctionless rectangular gate all around FET biosensor for label free detection of neutral biomolecules

Performance assessment of dielectrically modulated junctionless rectangular gate all around FET biosensor for label free detection of neutral biomolecules

In this work, a Dielectrically Modulated Junctionless Rectangular Gate All Around Field Effect Transistor (DM-JLRGAA-FET) is demonstrated and explored for label free detection of neutral biomolecules. In comparison to its conventional architectures, proposed biosensor exhibits a significantly improved sensing and conjugation performance due to its remarkable structure, which enhances its performance by providing substantial rejection to SCEs (short channel effects) and strengthened gate control over channel electrostatics. Drain current sensitivity, surface potential, transconductance and output conductance are employed to determine the sensing competence of the proposed biosensor. The proposed biosensor offers maximum drain current sensitivity of 8.09 for keratin biomolecule. The detection will become quite difficult during conjugation of two or more biomolecules. The conjugation analysis is also investigated by effective dielectric constant approach governed by Bruggeman’s Model. The conjugations of Streptavidin-Keratin and Streptavidin-Zein is studied for various concentration in the cavity. Conjugations of Streptavidin and Keratin shows the highest sensitivity of 18.5%. The sensing performance of proposed biosensor is optimized for schottky source/drain contacts engineering and also for channel material engineering.

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