Main research areas
Development of physical concepts for fabrication of new magnetoelectronic devices based on granular composite materials FeCoZr–Al2O3, FeCoZr–PZT, (Ni, Co, Fe)-containing alloy–MoS2 by studying of dependence of sctructural-phase state, magnetic and magnetic-transport properties
The application of 57Fe Mössbauer spectroscopy for study of local atomic order of various materials, which have a little contents of iron (using iron-containint catalyzers, materials with iron impurities etc)
The impact of structure of composite nanoparticles ferro-ferrimagnetic (Co, Ni, Fe, Fe3O4, CoFe2O4)– nonmagmetic metal (Au, Ag, Pd, Pt), including «core-shell» structure, on their magnetic characteristics to control the synthesis of nanoparticles with neccessary magnetic properties for use in bio-sensors, thermochemotherapy and spintronics
Development of physical concepts of manufacturing of patterned планарных nanostructures (Co, Ni, Fe) – (Pd, Pt, Cu) with perpendicular magnetic anisotropy by template-assisted method electrodeposition for new type nanoelectronic and spintronic devices.