Abstract
Nano-Sized Metal Oxides and their Use as a Surface Disinfectant against COVID-19: Review and Perspective
Hajo Idriss1,3*, M. Habib2,4, A. I. Alakhras1,2, H. M. El Khair1,3
DOI : http://dx.doi.org/10.13005/ojc/380601
Abstract:
Contamination of surfaces has long been identified as a significant factor in viral transmission. Therefore, sustained efforts are required to address this issue. This work aims to build a scientific database on nano-sized metal oxides as intelligent materials for surface disinfection against coronaviruses, synthesize and characterize nano-sized MgO, and discuss the possibility of using it in virus eradication. The MgO nanoparticle was prepared through the heating method. Meanwhile, XRD diffractometer, Scan electron microscope, and nitrogen adsorption were used to characterize the MgO nanoparticle. The synthesized MgO nanoparticle showed an average crystallite size of 18.55 nm, lattice strain 0.0053, surface area 27.56 m2/g, and d-spacing 2.1092. The outcomes of this review highlight the advantage and challenges of AgO, CuO, ZnO, TiO2, and MgO nanoparticles and their utilization for surface disinfection against coronaviruses.
Keywords:AgO; CuO; Metal Oxides MgO; Nanoparticles; SARS-CoV-2; Surface disinfectants; TiO2; ZnO
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