An investigation into synthesis and characterization of Ag-nanoparticles using green chemistry, and their antibacterial properties

Abstract

The quest for new nano-systems is ongoing to provide tailored nanoparticle systems for commercial purposes. The ability to manage their size and morphology leads to an advantage over other characteristics, therefore, a stable generation system is considered critical for their applications. We employed rose plant leaves extract to generate Ag-NPs via silver nitrate (AgNO3) as a basic ingredient in this study. The procedure was executed for multiple concentrations of the plant extract, as well as varying amounts of salt, and for different time periods. All of the different steps resulted in the development of Ag-NPs. The emergence of an absorption peak at 425 nm in UV-Vis spectroscopic spectra, and the presence of spherical particles visualized through SEM provided evidence of the creation of small-sized Ag-NPs. Finally, using the spread plate method, the antibacterial activity of Ag-NPs was investigated, and it was discovered that Ag-NPs exhibit high antibacterial activity against the four bacterial strains.