Course Content (Syllabus)
Magnetism in the nanoscale: nanostructure and nanocomposite materials for permanent magnet applications; size and surface/interface magnetic effects; magnetic nanodevices and applications (magnetic sensors, spin valve, magnetic recording, biomedical applications of magnetic nanoparticles).
Nanocomposition of nanoparticles: raw materials, gas-particle, solid-particle, drop-particle, reactor mechanics. Structure and properties of nanoparticles (in-situ techniques for measuring properties, ex-situ techniques to determine morphology, composition and application. Modeling (nano, micro, meso, macro level). Process and construction (particles collection and formation in catalysis products, sensors, coatings and dyeing structural enhancement). Examples of industrial applications.
Nanocomposite magnetic materials: Synthesis of nanostructured magnetic materials in one layer & in multilayers. Soft and hard magnets, magnetic recording materials,. Magnetic nanostructures and applications (micromotors, magnetic sensors and activators, spin value devices recordings, magnetic random access memories, biomedical applications). Magnetic electronic circuit. Nanomaterials growing techniques (plasma processing, rapid solidification, deposition techniques). Virtual Lab.