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Unveiling the Potential of B3O3 Nanoflake as Effective Transporter for the Antiviral Drug Favipiravir: Density Functional Theory Analysis

Muhammad Zahid, Naveen Kosar, Hasnain Sajid, Khalid E. Ibrahim, Mansour K. Gatasheh, Tariq Mahmood

2023Molecules15 citationsDOIOpen Access PDF

Abstract

In this study, for the first time, boron oxide nanoflake is analyzed as drug carrier for favipiravir using computational studies. The thermodynamic stability of the boron oxide and favipiravir justifies the strong interaction between both species. Four orientations are investigated for the interaction between the favipiravir and the B3O3 nanoflake. The Eint of the most stable orientation is −26.98 kcal/mol, whereas the counterpoise-corrected energy is −22.59 kcal/mol. Noncovalent interaction index (NCI) and quantum theory of atoms in molecules (QTAIM) analyses are performed to obtain insights about the behavior and the types of interactions that occur between B3O3 nanoflake and favipiravir. The results indicate the presence of hydrogen bonding between the hydrogen in the favipiravir and the oxygen in the B3O3 nanoflake in the most stable complex (FAV@B3O3-C1). The electronic properties are investigated through frontier molecular orbital analysis, dipole moments and chemical reactivity descriptors. These parameters showed the significant activity of B3O3 for favipiravir. NBO charge analysis transfer illustrated the charge transfer between the two species, and UV-VIS analysis confirmed the electronic excitation. Our work suggested a suitable drug carrier system for the antiviral drug favipiravir, which can be considered by the experimentalist for better drug delivery systems.

Topics & Concepts

FavipiravirChemistryNatural bond orbitalDensity functional theoryComputational chemistryHydrogen bondMoleculeOrganic chemistryDiseaseCoronavirus disease 2019 (COVID-19)MedicineInfectious disease (medical specialty)PathologyBoron and Carbon Nanomaterials ResearchAdvanced biosensing and bioanalysis techniquesBoron Compounds in Chemistry