Xingyu Wei, Hujun Jia, Linna Zhao, Qiyu Su, Weitao Cao, Wanli Yang, Zhen Cao, Yintang Yang
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引用次数: 0
摘要
本文介绍了一种基于手指插入式倒 T 型垂直隧道场效应晶体管(FP-T-TFET)的生物传感器。为了提高生物传感器的灵敏度和性能,在源极和沟道之间使用了手指插入式触点。针对不同介电常数的中性生物分子和不同电荷密度的带电生物分子的电学特性和灵敏度,模拟了基于 FP-T-TFET 的生物传感器与传统的倒 T 型 TFET(T-TFET)之间的比较分析。此外,还对拟议结构进行了噪声分析。然后,研究了插入指分布、空腔尺寸和填充体积对 FP-T-TFET 性能的影响。最后,对该结构进行了线性分析,皮尔逊系数为 0.92,表明该结构具有良好的线性相关性。结果表明,FP-T-TFET 生物传感器在检测各种中性和带电生物分子时具有更高的灵敏度。所有器件仿真都是在 TCAD 环境下进行的,结构校准良好。
Sensitivity analysis of an inverted T-shaped vertical tunneling field effect transistor biosensor based on inserted finger type
This paper presents a biosensor based on a finger-inserted inverted T-shaped vertical tunneling field effect transistor (FP-T-TFET). In order to improve the sensitivity and performance of the biosensor, a finger-inserted contact between the source and the channel is used. A comparative analysis between the biosensor based on FP-T-TFET and conventional inverted T-shaped TFET (T-TFET) is simulated for the electrical properties and sensitivity of neutral biomolecules with different dielectric constants and charged biomolecules with different charge densities. The noise analysis of the proposed structure is also performed. Then, the effects of insertion finger distribution, cavity size and filling volume on the performance of FP-T-TFET are investigated. Finally, the structure was subjected to linear analysis, in which the pearson coefficient was 0.92, indicating that the structure has good linear correlation. The results show that the FP-T-TFET biosensor has higher sensitivity in detecting various neutral and charged biomolecules. All device simulations were performed in the TCAD environment with a well-calibrated structure.
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