Design and fabrication of bio-magnetic sensors and magnetic nanobead labels for DNA detection and identification

Design and fabrication of bio-magnetic sensors and magnetic nanobead labels for DNA detection and identification

In this paper, the main challenges in developing a magnetic DNA microarray include: 1) The spin valve sensors must be sensitive to as few as 1-10 nanobeads to be useful for applications such as biological pathogen detection; to achieve this, the distance between the sensor and magnetic labels must b...

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Hauptverfasser: Wang, S.X., White, R.L., Li, G.-X., Joshi, V., Sun, S., Robinson, D.B., Kemp, J.T., Webb, C.D., Davis, R.W.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Biomagnetics
Biosensors
Chemical and biological sensors
DNA
Fabrication
Magnetic sensors
Nanobioscience
Optical films
Sensor arrays
Spin valves
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Beschreibung
Zusammenfassung:In this paper, the main challenges in developing a magnetic DNA microarray include: 1) The spin valve sensors must be sensitive to as few as 1-10 nanobeads to be useful for applications such as biological pathogen detection; to achieve this, the distance between the sensor and magnetic labels must be minimized. 2) The nanobeads must be monodisperse, water soluble, chemically and magnetically stable, and functionalized to attach to a DNA fragment; the nanobeads should also be superparamagnetic so that they will not agglomerate in the absence of applied fields. 3) The bio-magnetic DNA microarrays need to be designed to maximise the active sensing surface area.
DOI:10.1109/INTMAG.2003.1230557