- application of artificial intelligence in nanotechnology and nanomedicine
- preparations for targeted delivery and prolonged action
- magnetically controlled bio- and chemical processes and systems
- liquid metal interfaces, anode materials for batteries
– Developement of bacterial cellulose based scaffolds
– Omni/hydrophobic coatings and microstructures based on them
– Experiments miniaturization for high-throughput approaches
– Study of fibrinolysis and thrombosis abnormalities
– electroorganic transformations for sustainable chemistry
– design and synthesis of advanced materials for electrocatalysis
– carbon dioxide and wastewater utilization
– modulating the human microbiota
– genetically engineered probiotic strains for treatment of diseases
– biohybrid composites for treatment of inflammations and tissue regeneration
– new bioactive compounds from microbiota
– establishment of mechanisms of action for new chemical compounds-"candidates" into drugs
– anti-tumor therapy targets: protein kinases and their inhibitors
– new nanomaterials in experimental therapy of tumors: biocompatibility, drugs depot
- Selection of housekeeping genes
- Selection of different cancer markers
- Development of Oncomarker dependent DNA-machines for Cancer therapy
- Development of intracellular delivery and oligonucleotide protection research
- liquid metals and their composites for flexible electronics and batteries
- soft magnet controlled robots based on magnetic nanomaterials
- development of new synthetic approaches in materials chemistry
