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Magnetic nanoparticles have attracted broad attention due to their potential biomedical applications, such as contrast agents for magnetic resonance imaging (MRI), heating mediators for cancer therapy (hyperthermia), and magnetic labels for biosensing. For nanoparticles to be utilized for biomedical applications these nanoparticles must acquire superparamagnetic behavior with relatively high value...
Magnetic nanostructures have attracted a great deal of attention during the last decade because of their prospective applications not only in microwave absorption, high density recording media, and biosensor applications but also in functional micro and nanodevices [1-4]. Recently, significant investigations have been motivated to get excess of 1Tbit/in2 in magnetic storage devices but at smaller...
A novel single phase R 3 (Fe,M) 29 (R = Nd, Sm and Gd) compound series with M = Mo as a new stabilizing element has been synthesized. A systematic study of the formation and magnetic properties of R 3 (Fe,Mo) 29 compounds has been performed. The lattice parameters and magnetic properties including the Curie temperature T C , saturation magnetization...
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