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用于生物传感应用的双栅无结晶体管架构的增强灵敏度。

Enhanced sensitivity of double gate junctionless transistor architecture for biosensing applications.

作者信息

Parihar Mukta Singh, Kranti Abhinav

机构信息

Low Power Nanoelectronics Research Group, Electrical Engineering Discipline, Indian Institute of Technology Indore, India.

出版信息

Nanotechnology. 2015 Apr 10;26(14):145201. doi: 10.1088/0957-4484/26/14/145201. Epub 2015 Mar 16.

Abstract

In the present work, we demonstrate the potential of double gate junctionless (JL) architecture for enhanced sensitivity for detecting biomolecules in cavity modulated field effect transistors (FETs). The higher values of body factor, achieved in asymmetric gate operation under impact ionization is utilized for enhanced sensing margin which is nearly five times higher than compared to symmetrical mode operation. The intrinsic detection sensitivity is evaluated in terms of threshold voltage change, and the ratio of drain current in the presence and absence of biomolecules in JL nanotransistors. It is shown that asymmetric mode JL transistor achieves a higher degree of detection sensitivity even for a partially filled cavity. The work demonstrates the potential of JL channel architecture for cavity based dielectric modulated FET biosensors.

摘要

在本工作中,我们展示了双栅无结(JL)架构在增强腔调制场效应晶体管(FET)中生物分子检测灵敏度方面的潜力。在碰撞电离下的不对称栅极操作中实现的更高体因子值被用于提高传感裕度,该传感裕度比对称模式操作高出近五倍。通过阈值电压变化以及JL纳米晶体管中存在和不存在生物分子时漏极电流的比率来评估本征检测灵敏度。结果表明,即使对于部分填充的腔体,不对称模式JL晶体管也能实现更高程度的检测灵敏度。这项工作展示了JL沟道架构在基于腔体的介电调制FET生物传感器中的潜力。

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