Nanoscale biosensor with integratedthermoregulation controller for DNA diagnostics.

Seriya 3: Fizika, Astronomiya Pub Date : 2023-06-02 DOI:10.55959/msu0579-9392.78.2320701

I. Tsiniaikin, G. Presnova, I. Bozhev, A. A. Skorik, M. Rubtsova, A. Trifonov, O. Snigirev, V. Krupenin, D. Presnov

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Abstract

We present a CMOS compatible technique for fabrication a sensor system based on field-effect transistors with a nanowire channel with an integrated thermoregulation elements. The proposed system provides the necessary temperature regimes for many bioanalytical studies. Field-effect transistors with a nanowire channel were fabricated using of reactive-ion etching of the upper layer of a silicon on insulator through a mask formed by electron beam lithography. Titanium thermoresistive strips for temperature control were located on the surface of the chip nearby to the nanowire transistors. Their fabrication is carried out simultaneously with the formation of contact pads to the transistor electrodes, which made it possible to avoid additional technological steps. A demonstration of a system with a built-in temperature controller for the determination of nucleic acids was carried out on model oligonucleotides. Increasing the operating temperature of the device to the ranges at which DNA hybridization occurs most efficiently allows increasing specificity and avoiding false positive results, as well as reducing analysis time. The possibility of heating up to 85–90∘C allows you to reuse such devices.

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纳米级生物传感器集成温度调节控制器DNA诊断。

我们提出了一种CMOS兼容技术，用于制造基于场效应晶体管的传感器系统，该传感器系统具有集成热调节元件的纳米线通道。该系统为许多生物分析研究提供了必要的温度条件。利用电子束光刻形成的掩模，对绝缘体上硅层进行反应刻蚀，制备了具有纳米线通道的场效应晶体管。用于温度控制的钛热阻条位于芯片表面纳米线晶体管附近。它们的制造与晶体管电极的接触垫的形成同时进行，这使得避免额外的技术步骤成为可能。在模型寡核苷酸上演示了一种内置温度控制器的核酸测定系统。将设备的工作温度提高到DNA杂交最有效发生的范围，可以增加特异性，避免假阳性结果，并减少分析时间。加热到85-90°C的可能性使你可以重复使用这些装置。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Seriya 3: Fizika, Astronomiya

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