Experimental studies of physical properties of novel high temperature superconductors (HTS), superconductivity mechanisms and order parameter structure; synthesis of novel HTS with improved  critical parameters

Synthesis and studies of novel quantum materials with topologically non-trivial electron band structure: topological insulators (TI), Dirac and Weyl semimetals (WSM, DSM)

Fabrication and studies of electronic properties of two- and one-dimensional superconducting nanostructures, and layered low-dimensional materials.
Fabrication, assembling and studies of hybrid nanostructures based on superconductors (SC), topological insulators (TI), Dirac and Weyl semimetals (WSM, DSM)

Experimental studies of the strong electron-electron correlation effects in low-dimensional systems of electron and in layered materials.

Studies of the spin ordering effects  in quasi one-dimensional crystals and charge transport mechanisms in organic crystals

Development of novel techniques  and instruments for experimental  research, as well as novel technologies for fabrication of quantum materials, HTS materials and heterostructures on their basis