Low-dimensional magnetic nanostructures are promising materials for applications in many different fields, for example, in medicine (for drug delivery, biomimetic devices, contrast agents in magnetic resonance imaging, hyperthermia, cell manipulation, etc.), in informatics (for security systems, information storage devices, quantum computing, etc.), and in engineering (for magnetic sensors and actuators, energy harvesting, catalysis and magnetic separation, spintronic-based devices, etc.). Reducing materials to the nanoscale allows new properties to emerge. Their correct tuning will progress the design of new and exciting devices. This Special Issue summarizes some of the most recent works on the synthesis, characterization, theoretical modelling, and applications of 1D and 0D magnetic nanostructures.
Low-dimensional magnetic nanostructures are promising materials for applications in many different fields, for example, in medicine (for drug delivery, biomimetic devices, contrast agents in magnetic resonance imaging, hyperthermia, cell manipulation, etc.), in informatics (for security systems, information storage devices, quantum computing, etc.), and in engineering (for magnetic sensors and actuators, energy harvesting, catalysis and magnetic separation, spintronic-based devices, etc.). Reducing materials to the nanoscale allows new properties to emerge. Their correct tuning will progress the design of new and exciting devices. This Special Issue summarizes some of the most recent works on the synthesis, characterization, theoretical modelling, and applications of 1D and 0D magnetic nanostructures. Read More
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