- The study of the physical properties of biomembranes and model membranes
- The study of the mechanisms of DNA-protein and lipid-protein interactions
- Artificial receptors in lipid monolayers and bilayers. The study of the mechanisms of interaction of ligands with receptors.
- Development of biosensors based on DNA aptamers, biomimetic structures and nanostructures
- Monitoring of physical and physico-chemical parameters of plasma membranes, membranes of intracellular organelles and model membranes in normal conditions and selected pathologies, roles of such parameters in cell biochemistry and pharmacodynamics of various drugs.
- Determination of laser light penetration through human blood and selected tissues. Optimization of light dosimetry for therapy.
- Study of alterations in function and structure of blood components under laser irradiation alone and in combination with selected photosensitizers.
- Study of photophysical properties of selected fluorescent probes and their interactions with biomembranes. Application for fluorosensors.
- Study of the problems connected with electron quasidegeneracy. In the frame of COST D9 and D23 grants, the new methodology has been proposed. It will be useful for the calculation of the properties of molecules.
- Study of dissociative electron attachment. Calculation of the resonance energy, width of the resonance for electron attachment to halogenated methane and ethane
- Theoretical description of the fragmentation reactions of ionized molecules and clusters.Characterization of the energetical conditions for the fragmentation reactions for hydrocarbons and biomolecules
- Modeling of the dynamics of magnetic carriers. Mathematical model for the description of the dynamics of carriers in the lungs.