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DFT Study Adsorption of Hydroxychloroquine for Treatment COVID-19 by SiC Nanotube and Al, Si Doping on Carbon Nanotube Surface: A Drug Delivery Simulation

Zaid H. Al-Sawaff, Serap Şentürk Dalgiç, Fatma Kandemi̇rlı, Majid Monajjemi, Fatemeh Mollaamin

2022Russian Journal of Physical Chemistry A12 citationsDOIOpen Access PDF

Abstract

This study aims to investigate the capability of aluminum-doped nanotubes, silicon-doped nanotubes, and silicon carbide nanotubes to adsorb Hydroxychloroquine (C18H26ClN3O) molecular using DFT theory at 6-31G** basis set and M062x level of theory. The calculated results indicate that the distance between nanotubes and the drug from the N site is lower than from all other locations sites for all investigated nanotubes, and adsorption is more favorable, especially for Al-CNT nanotube. The adsorption energy, hardness, softness, and fermi energy results reveal that the interaction of Hydroxychloroquine with Al-CNT is stronger than Si-CNT and SiC-NT. The results clarify that Al-CNT is a promising adsorbent for this drug as Eads of Hydroxychloroquine/Al-CNT complexes are –45.07, –15.78, –45.15, –93.53 kcal/mol in the gas phase and –43.02, –14.43, –43.86, –88.97 kcal/mol for aqueous solution. The energy gap of the Hydroxychloroquine/Al-CNT system is in the range of 2.32 to 3.84 eV.

Topics & Concepts

Carbon nanotubeHydroxychloroquineMaterials scienceNanotubeAdsorptionDopingNanotechnologySiliconChemical engineeringPhysical chemistryChemistryCoronavirus disease 2019 (COVID-19)OptoelectronicsEngineeringInfectious disease (medical specialty)DiseasePathologyMedicineBoron and Carbon Nanomaterials ResearchCarbon Nanotubes in CompositesEnergetic Materials and Combustion