Magnetic Materials for Thin Film Based Magnetoimpedance Biosensing

Magnetic Materials for Thin Film Based Magnetoimpedance Biosensing

One of the fundamental characteristics of a magnetic field detector is sensitivity to the external magnetic field. Of all the known magnetic effects, the giant magnetoimpedance (MI) has the highest sensitivity with respect to the external magnetic field. Here, we describe our experience in designing...

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Bibliographic Details
Published in:Physics of metals and metallography Vol. 120; no. 13; pp. 1243 - 1251
Main Authors: Kurlyandskaya, G. V., Shcherbinin, S. V., Buznikov, N. A., Chlenova, A. A., Svalov, A. V.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-12-2019
Springer
Springer Nature B.V
Subjects:
Biosensors
Chemistry and Materials Science
Detectors
Dielectric films
Ferroalloys
Ferromagnetic resonance
Ferromagnetism
Giant magnetoimpedance
Magnetic effects
Magnetic fields
Magnetic materials
Magnetism
Materials Science
Metallic Materials
Microwave absorption
Network analysers
Optimization
Room temperature
Sensitivity
Thin films
Magnetic materials
magnetic filed sensors
biomedical applications
thin films
magnetoimpedance
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Summary:One of the fundamental characteristics of a magnetic field detector is sensitivity to the external magnetic field. Of all the known magnetic effects, the giant magnetoimpedance (MI) has the highest sensitivity with respect to the external magnetic field. Here, we describe our experience in designing, fabrication, experimental and theoretical characterization of [FeNi(50 nm)/Ti(6 nm)] 6 /Cu(500 nm)/[Ti(50 nm)/FeNi(6 nm)] 6 multilayered structures for biometric detector. The designed device operates at room temperature, with a maximum sensitivity of the order of 0.4 Ohm/Oe for the total impedance and its real part and 0.1 Ohm/Oe for the imaginary part of the total impedance. An automatic system based on a ZVA-67 (Rohde & Schwarz) vector network analyzer was built for one-scan microwave absorption studies of both magnetoimpedance and ferromagnetic resonance of multilayered sensitive elements. Measurements were made with the coplanar line type holder in the increasing and decreasing fields. The obtained experimental and theoretical results for MI range were in a satisfactory agreement with each other. They could be useful for optimization of the MI multilayered elements for practical applications, including applications in different types of magnetic biosensors.
ISSN:0031-918X
1555-6190
DOI:10.1134/S0031918X19130143