The area and subject of carried out research
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Development of a method to obtain silica nanostructures with graphene, RGO, and pyrolytic carbons from polymer precursors of potential use as lithium-ion batteries
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Development of a method for obtaining PEDOT / MehcFe hybrid electrodes (MehcFe = Prussian blue analogy, Me = Fe, Co, Ni) on the surface of TiO2 (TNT) and H TNT nanotubes, and their photoactivity.
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Use of BiVO4 in organic-inorganic and inorganic-inorganic composites in photoelectro-catalytic water decomposition.
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The use of organic-inorganic hybrid nanomaterials in the process of collecting electricity in supercapacitors
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Development of a method for obtaining oriented MoO3 microstructures by Mo anodization for application Mo / MoO3 electrodes in photoelectrolysis
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Creation of new, more efficient derivatives of carbon nanotubes as electrocatalysts in enzymatic biocatalysis.
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Development of new graphene materials
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Development of a synthesis methods, obtaining and characterizing the properties of organic materials of practical importance, intended as ionophores for chemical sensors - mainly of biomedical importance - based on supramolecular systems.
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Constructing and investigating all-solid-state miniature potentiometric platforms for biomedical and environmental research.
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Synthesis of supramolecular complexes of cyclodextrins with pharmacologically active substances and discernability of the use of cyclodextrin nanosponges in the waste treatment from pharmaceutical industry.
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Investigation of the properties of Baltic amber, fossil and subfossil resins as material used in the jewelery industry and other areas such as medicine and pharmacy.