Yu.B. Pankivska scite author profile

Two types of gold nanoparticles, covered with SiO 2 shell and located on the SiO 2 large nanoparticle-carrier, have been synthesized and used as antiviral agents against adenoviruses. Both antiviral effect and virucidal action of the nanoparticles have been studied. It has been shown that both types of nanoparticles demonstrate antiviral action. Dependence of antiviral activity of nanoparticles on their concentration has been studied. Nonmonotonic dependence of the antiviral effect on nanoparticles concentration has been observed and discussed. The antiviral action of complex nanoparticles against adenovirus is important because of low toxicity of the gold nanoparticles covered with SiO 2 shell and of Au-SiO 2 carrier nanoparticles.

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Antiadenoviral Activity of Titanium Dioxide Nanoparticles

Pankivska¹,

Biliavska²,

Povnitsa³

et al. 2019

Mikrobiol. Z.

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Virus deformation or destruction: size-dependence of antiviral and virucidal activities of gold nanoparticles

Chaika¹,

Zahorodnya²,

Naumenko³

et al. 2022

Adv. Nat. Sci: Nanosci. Nanotechnol.

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Over the last 10 years, the antiviral and antimicrobial activities of non-functionalised inorganic nanoparticles against different pathogens were experimentally shown. This effect has attracted the attention of scientists due to the COVID-19 pandemic; however, its mechanism is still unclear. For understanding the mechanism of nanoparticle’s action, it is important to know how this action depends on the parameters of nanoparticles and the properties of a pathogen. In the work, we have studied the action of gold nanoparticles on the viruses outside and inside the cell and compared this action with two sizes of nanoparticles and two types of viruses. The study has been conducted for adenovirus and H1N1 influenza virus, and gold nanoparticles of 5 nm and 20 nm diameter. Virucidal and antiviral actions were observed experimentally for both sizes of nanoparticles against both viruses. It has also been shown with the electron microscopy that the viruses may be destructed in 2 h after adsorption of 5 nm gold nanoparticles on their surface; and that the viruses may change their shape in 2 h after adsorption of 20 nm nanoparticles on their surface. The model of physical adsorption of nanoparticles on the virus surface due to near-field interaction was used to explain observed results.

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Near-Field Aspects of Antiviral Action of Complex Nanoparticles on Adenovirus

Lozovski

Rusinchuk

Lysenko³

et al. 2018

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Anti-Adenoviral Activity of Neoflazid in vitro

Povnitsa¹,

Biliavska²,

Pankivska³

et al. 2018

Mikrobiol. Z.

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Yu.B. Pankivska

Nanoparticles as antiviral agents against adenoviruses

Antiadenoviral Activity of Titanium Dioxide Nanoparticles

Virus deformation or destruction: size-dependence of antiviral and virucidal activities of gold nanoparticles

Near-Field Aspects of Antiviral Action of Complex Nanoparticles on Adenovirus

Anti-Adenoviral Activity of Neoflazid in vitro

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