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Magnetic particle imaging (MPI) is an emerging non-invasive tomographic technique that directly detects superparamagnetic nanoparticle tracers. The technology has potential applications in diagnostic imaging and material science .
Magnetic labels exhibit several features very well adapted for such applications: [citation needed] they are not affected by reagent chemistry or photo-bleaching and are therefore stable over time, the magnetic background in a biomolecular sample is usually insignificant, sample turbidity or staining have no impact on magnetic properties,
ISO 9934-2, Non-destructive testing - Magnetic particle testing - Part 2: Detection media; ISO 9934-3, Non-destructive testing - Magnetic particle testing - Part 3: Equipment; ISO 10893-5, Non-destructive testing of steel tubes. Magnetic particle inspection of seamless and welded ferromagnetic steel tubes for the detection of surface imperfections
Infrared microtomographic imaging [10] Mid-infrared: 2013 Laser Ablation Tomography: Laser ablation & fluorescent microscopy: LAT 2013 Magnetic induction tomography: Magnetic induction: MIT Magnetic particle imaging: Superparamagnetism: MPI 2005 Magnetic resonance imaging or nuclear magnetic resonance tomography Nuclear magnetic moment: MRI or MRT
For biomedical applications like magnetic resonance imaging, magnetic cell separation or magnetorelaxometry, where particle size plays a crucial role, magnetic nanoparticles produced by this method are very useful. Viable iron precursors include Fe 3, Fe(CO) 5, or Fe 3 in organic solvents with surfactant molecules. A combination of Xylenes and ...
The potential and versatility of magnetic chemistry arises from the fast and easy separation of the magnetic nanoparticles, eliminating tedious and costly separation processes usually applied in chemistry. Furthermore, the magnetic nanoparticles can be guided via a magnetic field to the desired location which could, for example, enable pinpoint ...
EDMR – Electrically detected magnetic resonance, see ESR or EPR; EDS or EDX – Energy dispersive X-ray spectroscopy; EELS – Electron energy loss spectroscopy; EFTEM – Energy filtered transmission electron microscopy; EID – Electron induced desorption; EIT and ERT – Electrical impedance tomography and electrical resistivity tomography
Modern 3 Tesla clinical MRI scanner.. Magnetic resonance imaging (MRI) is a medical imaging technique mostly used in radiology and nuclear medicine in order to investigate the anatomy and physiology of the body, and to detect pathologies including tumors, inflammation, neurological conditions such as stroke, disorders of muscles and joints, and abnormalities in the heart and blood vessels ...