Computational aspects of the three-dimensional feature-scale simulation of silicon-nanowire field-effect sensors for DNA detection

Clemens Heitzinger; Gerhard Klimeck

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Computational aspects of the three-dimensional feature-scale simulation of silicon-nanowire field-effect sensors for DNA detection

机译：用于DNA检测的硅纳米线场效应传感器的三维特征尺度模拟的计算方面

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In recent years DNA-sensors, and generally biosensors, with semiconducting transducers were fabricated and characterized. Although the concept of so-called BioFETs was proposed already two decades ago, its realization has become feasible only recently due to advances in process technology. In this paper a comprehensive and rigorous approach to the simulation of silicon-nanowire DNAFETs at the feature-scale is presented. It allows to investigate the feasibility of single-molecule detectors and is used to elucidate the performance that can be expected from sensors with nanowire diameters in the deca-nanometer range. Finally the computational challenges for the simulation of silicon-nanowire DNA-sensors are discussed.

机译：近年来，制造并表征了具有半导体换能器的DNA传感器（通常是生物传感器）。尽管二十年前就已经提出了所谓的BioFETs概念，但由于工艺技术的进步，其实现直到最近才变得可行。在本文中，提出了一种在特征尺度下模拟硅纳米线DNAFET的全面而严格的方法。它允许研究单分子检测器的可行性，并用于阐明纳米线直径在十纳米范围内的传感器可以预期的性能。最后讨论了硅纳米线DNA传感器模拟的计算挑战。

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来源
《Journal of Computational Electronics》 |2007年第3期|p.387-390|共4页
作者
Clemens Heitzinger; Gerhard Klimeck;
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作者单位

School of Electrical and Computer Engineering, Purdue University, West Lafayette, IN 47907, USA;

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原文格式 PDF
正文语种 eng
中图分类电工技术;
关键词
DNAFET; BioFET; simulation; silicon-nanowire;

机译：DNAFET;BioFET;模拟;硅纳米线;

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Computational aspects of the three-dimensional feature-scale simulation of silicon-nanowire field-effect sensors for DNA detection

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