Magnetic Materials Based Biosensors

Edited by
October 2018
212 pages
  • ISBN978-3-03897-254-9 (Paperback)
  • ISBN978-3-03897-255-6 (PDF)

This book is a reprint of the Special Issue Magnetic Materials Based Biosensors that was published in

Chemistry & Materials Science
Environmental & Earth Sciences
Selective and quantitative detection of different kinds of biocomponents plays an important role in biomedical applications, clinical diagnostics, environmental monitoring, toxicology, regenerative medicine and drug delivery. Therefore, multidisciplinary area of magnetic biosensing  have been extensively developed in recent years, aiming to create compact analytical devices for non-expensive and low time consuming analysis provided at the point of care by non-skilled personnel. Biological samples exhibit very low magnetic background, and thus highly sensitive measurements of magnetic labels or magnetic nanoparticles enriched units can be performed without further processing. A magnetic biosensor is a compact analytical device in which magnetic transducer converts a magnetic field variation into a change of frequency, current, voltage, etc. Different types of magnetic effects are capable of creating magnetic biosensors with extra high sensitivity. This book describes interesting examples of magnetic materials based biosensors, including the synthesis of model materials for biosensor development, new engineering solutions and theoretical contributions on the magnetic biosensor sensitivity. Book contains 13 research works representing international multidisciplinary teams from Austria, China, Germany, Greece, Iran, Russia, Serbia, Spain, Taiwan and United States of America. It can be useful for PHD students and researches working in the field of magnetic nanomaterials and biomedical applications.]
  • Paperback
License and Copyright
© 2019 by the authors; CC BY license
magnetic immunoassay; biofunctionalized magnetic nanoparticles; biomarker; alpha-fetoprotein; hepatocellular carcinoma; magnetization enhancement; magnetic biosensors; iron oxide magnetic nanoparticles; chitosan; ferrofluids; human blood mononuclear leukocytes; morphofunctional response; magnetic nanoparticles; strontium hexaferrite; magnetite; ferrofluids; polyacrylamide gel; ferrogel; tissue engineering; magnetic biosensors; giant magnetoimpedance; magnetic nanoparticles; magnetic biosensors; ferrogels; magnetic multilayers; giant magnetoimpedance; magnetic biosensors; quality factor; magnetoelastic resonance; superconducting quantum interference device; magnetic nanoparticle; immunoassay; aptamer; magnetic beads; analytical applications; electrochemical assays; optical assays; point-of-care-testing; magnetic nanoparticles; viscoelasticity; magnetorelaxometry; myoglobin; C-reactive protein; Dynabeads; magnetoimpedance; microfluidic device; magnetic gels; shear modulus; chain structures; magnetorheological effect; magnetic labeling; magnetic microparticles; magnetophoresis; bacteria quantification; biosensing; particle tracking; human cardiac troponin I; magnetic beads; magnetoimmunosensor; cadmium quantum dots; Streptavidin-Horseradish Peroxidase; Galfenol; magnetic nanowires; electrochemical deposition

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