磁阻生物传感器的研究进展

IF 2.5 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nano Futures Pub Date : 2023-02-16 DOI:10.1088/2399-1984/acbcb5

Clifton Dey, Parsa Yari, Kai Wu

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引用次数: 1

摘要

近年来，自旋电子器件及其在生物医学领域的应用得到了发展。自旋电子设备依赖于检测或操纵磁场，生物物质对磁场相对透明。自旋电子设备最近在生物医学领域的应用包括诊断疾病，如癌症和肝硬化、DNA基因分型、定点护理设备和柔性电子设备。到目前为止，生物医学应用中的大多数自旋电子器件可分为三种主流类型：各向异性、巨磁电阻器件和隧道磁阻器件。每种方法都有其优点和缺点，本文对此进行了探讨和讨论。自旋电子学的出现为我们提供了一种新的低功耗、低成本、易于制造的标准CMOS传感器替代品。自旋电子生物传感器的灵敏度一直在稳步发展，预计在未来几年将大幅提高。

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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Recent advances in magnetoresistance biosensors: a short review

Recent years have seen the development of spintronic devices and their applications in biomedical areas. Spintronic devices rely on detecting or manipulating a magnetic field, a field to which biological matter is relatively transparent. The recent use of spintronic devices in biomedical areas has included diagnosing diseases such as cancer and cirrhosis, genotyping DNA, point-of-care devices, and flexible electronics. Up to date, most of the spintronic devices in biomedical applications fall into three mainstream types: anisotropic, giant, and tunneling magnetoresistance devices. Each of these has its advantages and drawbacks, which are explored and discussed in this article. The advent of spintronics gives us a new low-power, low-cost, ease-of-manufacture alternative to standard CMOS sensors. The sensitivity of spintronic biosensors has been progressing steadily, expected to increase tremendously in the next few years.

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来源期刊

Nano Futures Chemistry-General Chemistry

CiteScore

4.30

自引率

0.00%

发文量

期刊介绍： Nano Futures mission is to reflect the diverse and multidisciplinary field of nanoscience and nanotechnology that now brings together researchers from across physics, chemistry, biomedicine, materials science, engineering and industry.