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Kiyonori Suzuki's research is primarily directed towards magnetic properties of non-equilibrium metastable materials, with a particular emphasis on nanostructured materials for electromagnetic device applications. His work focuses on the relationships between nanostructure and magnetic properties, as well as the nanostructural formation mechanisms that influence magnetism in nanostructured systems. Major experimental techniques employed in his research include melt-spinning, sputtering, electron microscopy, atomic/magnetic force microscopy, thermal analysis, ac-susceptometry, small-angle neutron scattering, and Mössbauer spectroscopy. Significant outcomes from his field include the development of nanocrystalline Fe-M-B (M = early transition metal) soft magnetic alloys and the establishment of a two-phase random anisotropy model. Dr. Suzuki is also interested in functional materials related to sustainable energy technologies, particularly hydrogen storage and permeation alloys.
Monash University • Melbourne, Victoria, Australia
Leading research in the field of magnetic properties of materials, focusing on practical applications in electromagnetic devices.
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