Multifunctional integration of tungsten oxide (WO3) coating: A versatile approach for enhanced performance of antibiotics against single mixed bacterial infections.

Nanomaterials containing tungsten (TNMs), characterized by diverse nanostructures had been extensively used in biomedical sector. Despite numerous reports focusing on TNM applications in specific biomedical areas, there is a noticeable absence of comprehensive studies that focused on detailed characterization of nanomaterials along with their biological applications. The present work described the structural, morphological, and antimicrobial properties of tungsten oxide (WO 3) nanoparticles coated by antibiotics (nanobiotics), and their application on single and mixed bacterial culture. The nanobiotics included in this study were WO 3 coated with ampicillin (W+A), WO 3 coated with penicillin (P+W), and WO 3 coated with ciprofloxacin (C+W). Techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), X-ray spectroscopy (EDX), Fourier transforms infrared spectroscopy (FTIR), Rrman spectroscopy, and UV–visible spectroscopy were used to characterize synthesized nanoparticles. The minimum inhibitory concentration of C+W nanobiotic against S. aureus , E. coli , and mixed culture (S. aureus + E. coli) was lower than that of P+W and A+W. The impact of incubation period showed significant differences for each of nanobiotic against S. aureus , E. coli , and mixed culture. However, there were also non-significant differences among incubation periods for antibacterial activity of nanobiotics. It was pertinent to note that percentage variation in susceptibility of S. aureus with respect to mixed culture remained higher as compared to E. coli, indicating it stronger candidate imposing resistance. This paper thus suggested the strategy of coating of antibiotics with with WO 3 nanoparticles as an ideal combination for resistance modulation against single and mixed culture bacteria. [Display omitted] • Tungsten oxide nanoparticles successfully coupled with antibiotics. • Nanoparticles coupled antibiotics revealed appealing characteristics. • Ciprofloxacin coupling proved to be significant antibacterial compared to others. • S. aureus showed highest sensitivity compared to E. coli & mixed culture infection. • E. coli showed higher resistance than to S. aureus in mixed culture infection. [ABSTRACT FROM AUTHOR]