Research Center for Advanced Functional Materials and Laser Communication Systems
- Numerical simulation of the optical characteristics of LEDs and LED modules
- Substrates based on single crystals of gallium oxide
- Advanced materials with unique optical and thermal properties for a new generation of solid state light sources for replacement of conventional phosphors (composite materials, carbon-based nanostructures, transparent oxides)
- Modern nanostructured metal conductors for wires and cables with increased conductivity and improved strength properties
- Construction of theoretical models describing the micro-mechanics of defects behavior and physical mechanisms of structure formation, relaxation of residual stresses and plastic deformation in composite nanostructures and bulk nanomaterials
- Studies of the dislocation structure in heterolayers based on materials with hexagonal symmetry
- Adhesion of soft materials based on polymers
- Thin-film composite functional materials based on metal oxides with variable optical and electrical characteristics for photovoltaic devices
- Acoustic linear and nonlinear effects in the study of the dynamics of domain walls in ferroics
- The study of defects in graphene and graphene pseudocrystals