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Antibacterial activity of selenium nanoparticles/copper oxide (SeNPs/CuO) nanocomposite against some multi-drug resistant clinical pathogens

Ahmed Morad Asaad, Sara A. Saied, Mohammad M. Torayah, N.I. Abu-Elsaad, Samah Awad

2025BMC Microbiology11 citationsDOIOpen Access PDF

Abstract

Abstract Background Recent advances in nanomedicine have derived novel prospects for development of various bioactive nanoparticles and nanocomposites with significant antibacterial and antifungal properties. This study aims to investigate some characteristics of the novel Se-NPs/Cu 2 O nanocomposite such as morphological, physicochemical, and optical properties, as well as to assess the antibacterial activity of this fabricated composite in different concentrations against some MDR Gram-positive and Gram-negative clinical bacterial isolates. Methods The Se-NPs/Cu 2 O nanocomposite was fabricated using the chemical deposition method. The fabricated nanocomposite was fully characterized by X-Ray diffraction analysis (XRD), fourier transforms infrared spectroscopy (FTIR), and transmission electron microscope (TEM). The antimicrobial activity of Se-NPs/Cu 2 O was investigated using the standard broth microdilution method. The fabricated Se-NPs/Cu 2 O nanocomposites were detected as stable and highly crystallized nanospheres with an average size of 98.6 nm. Results The Se-NPs/Cu 2 O nanocomposite showed a potent antimicrobial activity with MIC values ranged from 6.25 to 12.5 µg/ml for Gram-positive isolates, and 25 to 50 µg/ml for gram-negative isolates. The bactericidal activity was higher for gram-negative isolates with MBC/MIC ratios of 1–2 µg/ml for gram-negative, versus 8 µg/ml for gram positive pathogens. Conclusion These findings would support further research in development of a novel Se-NPs/Cu 2 O nanocomposite as a promising alternative therapeutic option for improving the quality of patients’ management.

Topics & Concepts

NanocompositeBroth microdilutionFourier transform infrared spectroscopyAntibacterial activityAntimicrobialMaterials scienceNuclear chemistryNanoparticleMinimum inhibitory concentrationMicrobiologyNanotechnologyChemistryBacteriaBiologyChemical engineeringGeneticsEngineeringSelenium in Biological SystemsAdvanced Nanomaterials in CatalysisLaser-Ablation Synthesis of Nanoparticles
Antibacterial activity of selenium nanoparticles/copper oxide (SeNPs/CuO) nanocomposite against some multi-drug resistant clinical pathogens | Litcius