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用于生化传感器应用的互补金属氧化物半导体芯片上硅纳米线场效应晶体管阵列的单片集成。

Monolithic integration of a silicon nanowire field-effect transistors array on a complementary metal-oxide semiconductor chip for biochemical sensor applications.

作者信息

Livi Paolo, Kwiat Moria, Shadmani Amir, Pevzner Alexander, Navarra Giulio, Rothe Jörg, Stettler Alexander, Chen Yihui, Patolsky Fernando, Hierlemann Andreas

机构信息

ETH Zurich , Bio Engineering Laboratory, Department of Biosystems Science and Engineering, Mattenstrasse 26, CH-4058 Basel, Switzerland.

School of Chemistry, Tel Aviv University , Tel Aviv, Israel 69978.

出版信息

Anal Chem. 2015 Oct 6;87(19):9982-90. doi: 10.1021/acs.analchem.5b02604. Epub 2015 Sep 30.

DOI:10.1021/acs.analchem.5b02604
PMID:26348408
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5424868/
Abstract

We present a monolithic complementary metal-oxide semiconductor (CMOS)-based sensor system comprising an array of silicon nanowire field-effect transistors (FETs) and the signal-conditioning circuitry on the same chip. The silicon nanowires were fabricated by chemical vapor deposition methods and then transferred to the CMOS chip, where Ti/Pd/Ti contacts had been patterned via e-beam lithography. The on-chip circuitry measures the current flowing through each nanowire FET upon applying a constant source-drain voltage. The analog signal is digitized on chip and then transmitted to a receiving unit. The system has been successfully fabricated and tested by acquiring I-V curves of the bare nanowire-based FETs. Furthermore, the sensing capabilities of the complete system have been demonstrated by recording current changes upon nanowire exposure to solutions of different pHs, as well as by detecting different concentrations of Troponin T biomarkers (cTnT) through antibody-functionalized nanowire FETs.

摘要

我们展示了一种基于单片互补金属氧化物半导体(CMOS)的传感器系统,该系统在同一芯片上包含硅纳米线场效应晶体管(FET)阵列和信号调节电路。硅纳米线通过化学气相沉积方法制造,然后转移到CMOS芯片上,在该芯片上已通过电子束光刻对Ti/Pd/Ti接触进行了图案化。片上电路在施加恒定源漏电压时测量流过每个纳米线FET的电流。模拟信号在芯片上数字化,然后传输到接收单元。通过获取基于裸纳米线的FET的I-V曲线,该系统已成功制造并测试。此外,通过记录纳米线暴露于不同pH值溶液时的电流变化,以及通过抗体功能化的纳米线FET检测不同浓度的肌钙蛋白T生物标志物(cTnT),证明了整个系统的传感能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f6e6/5424868/e650ec4d3b9b/emss-72679-f001.jpg

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