Molecular Detection with Magnetic Labels and Magnetoresistive Sensors

机译：带有磁性标签和磁阻传感器的分子检测

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摘要

For future lab-on-a-chip devices, compact and inexpensive detection units are required that directly translate the abundance of certain biomolecules into an electronic signal. By detecting specifically bound magnetic labels with magnetoresistive sensors, a versatile platform can be designed that fulfils those requirements and even enables on-chip manipulation of biomolecules by suitable magnetic gradient fields. Here, we present sensitive recognition of different types of magnetic labels by magnetoresistive sensors based both on giant magnetoresistance (GMR) and tunneling magnetoresistance (TMR). Hybridization experiments show that our prototype magnetoresistive biosensor can detect complex DNA with a length of one thousand base pairs down to a concentration of 24 pM. A direct comparison of our magnetoresistive and a standard fluorescent detection method clearly shows the advantage and competitiveness of our approach.

机译：对于未来的芯片实验室设备，需要紧凑且便宜的检测单元，这些检测单元将某些生物分子的大量直接转化为电子信号。通过使用磁阻传感器检测特定结合的磁性标记，可以设计一个通用平台，该平台可以满足那些要求，甚至可以通过合适的磁场梯度场对生物分子进行片上操作。在这里，我们介绍了基于巨磁阻（GMR）和隧穿磁阻（TMR）的磁阻传感器对不同类型磁性标签的灵敏识别。杂交实验表明，我们的原型磁阻生物传感器可以检测长度为1000个碱基对的复杂DNA，浓度低至24 pM。我们的磁阻法和标准荧光检测法的直接比较清楚地表明了我们方法的优势和竞争力。

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来源
《NATO Advanced Study Institute on Nanoscale Devices-Fundamentals and Applications; 20040918-22; Kishinev(MD)》|2004年|P.3546|共2页
会议地点 Kishinev(MD)
作者
J. Schotter; M. Panhorst; M. Brzeska; P. B. Kamp; A. Becker; A. Puehler; G. Reiss; H. Brueckl;
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作者单位

ARC Seibersdorf research GmbH, Nano-Systemtechnologien, 1220 Wien, Austria;

Department of Physics, University of Bielefeld, 33615 Bielefeld, Germany;

Department of Genetics, University of Bielefeld, 33615 Bielefeld, Germany;

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原文格式 PDF
正文语种 eng
中图分类真空电子技术;
关键词
biosensor; DNA; lab-on-a-chip; microbead; magnetoresistance; GMR; TMR;

机译：生物传感器; DNA;芯片实验室;微珠;磁阻; GMR; TMR;

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专利

1. High sensitivity detection of molecular recognition using magnetically labelled biomolecules and magnetoresistive sensors [J] . Graham DL., Ferreira HA., Freitas PP., Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2003,第4期

机译：使用磁性标记的生物分子和磁阻传感器进行分子识别的高灵敏度检测
2. On the importance of sensor height variation for detection of magnetic labels by magnetoresistive sensors [J] . Anders Dahl Henriksen, Shan Xiang Wang, Mikkel Fougt Hansen Scientific reports. . 2015,第1期

机译：关于传感器高度变化对磁阻传感器检测磁性标签的重要性
3. Magnetoresistive performance and comparison of supermagnetic nanoparticles on giant magnetoresistive sensor-based detection system [J] . Wei Wang, Yi Wang, Liang Tu, Scientific reports. . 2014,第1期

机译：基于巨型磁阻传感器的检测系统的超磁纳米粒子的磁阻性能和比较
4. Molecular Detection with Magnetic Labels and Magnetoresistive Sensors [C] . J. Schotter, M. Panhorst, M. Brzeska, NATO Advanced Study Institute on Nanoscale Devices-Fundamentals and Applications . 2006

机译：用磁标签和磁阻传感器分子检测
5. Giant magnetoresistive sensors and magnetic labels for chip -scale detection of immunosorbent assays [D] . Millen, Rachel Lora 2005

机译：巨磁阻传感器和磁性标记，用于芯片尺寸检测免疫吸附测定
6. On the importance of sensor height variation for detection of magnetic labels by magnetoresistive sensors [O] . Anders Dahl Henriksen, Shan Xiang Wang, Mikkel Fougt Hansen -1

机译：关于传感器高度变化对磁阻传感器检测磁性标签的重要性
7. On the importance of sensor height variation for detection of magnetic labels by magnetoresistive sensors [O] . Henriksen Anders Dahl, Wang Shan Xiang, Hansen Mikkel Fougt 2015

机译：关于传感器高度变化对磁阻传感器检测磁标记的重要性
8. Giant Magnetoresistive Sensors and Magnetic Labels for Chip-Scale Detection of Immunosorbent Assays Doctoral thesis [R] . Millen, R. L. 2005

机译：用于芯片尺度检测免疫吸附试验的巨磁阻传感器和磁性标签博士论文

Molecular Detection with Magnetic Labels and Magnetoresistive Sensors

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