Optical and Electrical Properties of Hybrid Nanomaterials based on Carbon, Semiconductor, and Metal Nanostructures
Physical basis of fabrication of ordered metallic, semiconductor, and organic nanostructures: self-organization, photoinduced and template nanoassembly
Processes of up-conversion, nonlinear quenching, and saturation in new laser crystals and nanostructures based on fluoride and cloride compounds in condition of high pump density
Investigation of formation and photophysical properties of hybrid nanostructures based on semiconductor quantum dots and organic molecules
Transfer of energy of photoexcitations in ordered ensembles of nanocrystals
Investigation of nonradiative energy transport in ordered systems of semiconductor quantum dots
Investigation of energy and phase relaxation of electronic subsystem of semiconductor quantum dots
Development of optical methods of diagnostics for relaxation processes of electronic subsystem of semiconductor nanocrystals
Photoinduced transfer of charge and energy on surface and bulk of condensed matter