Antiviral activity was predicted by using data from program PASS Online for synthesized compounds against picornavirus, the influenza and the rhinovirus, what fits in today's strategy of creating of the anthraquinone-based anticancer... more
Antiviral activity was predicted by using data from program PASS Online for synthesized compounds against picornavirus, the influenza and the rhinovirus, what fits in today's strategy of creating of the anthraquinone-based anticancer drugs and with antibacterial effect. There are several current methods to synthesize 9,10-anthraquinone, which contain the biogenic amines in the 4-position. Antiviral activity was predicted by using program AVCpred in a percentage of inhibition against deadly viruses like Human immunodeficiency virus (HIV), Hepatitis C virus (HCV), Hepatitis B virus (HBV), Human herpesvirus (HHV)
Research Interests:
Research Interests:
An optimal imposition method of anthraquinone triazenes on silicon lining was selected. This allowed to create a nanometer film that can be used as dielectric aromatic buffer layers. A morphological research of triazene films shows the... more
An optimal imposition method of anthraquinone triazenes on silicon lining was selected. This allowed to create a nanometer film that can be used as dielectric aromatic buffer layers. A morphological research of triazene films shows the existence of delocalized globular anthraquinone macromolecular microformation on the background of triazene uneven layers. The oxidized surface of the triazene substrate is applied better than those without the oxide. This is caused by distribution of electron density in triazene which creates an additional Si/SiO2 coupling system and by presence of voluminous aromatic substituents which impairs the uniformity of film deposition and reduces its thickness.