Synthesis of Silver Nanoparticles Using Green Reducing Agent: Ceylon Olive (Elaeocarpus serratus): Characterization and Investigating Their Antimicrobial Properties

Abstract: Silver nanoparticles (AgNPs) are widely recognized as a prominent antimicrobial agent and have found applications in the field of medicine. This study focuses on the synthesis of AgNPs utilizing the natural reducing agent of Ceylon olive (Elaeocarpus serratus), presenting an economically viable and ecologically friendly approach. For the first time, this research demonstrated the synthesis of AgNPs using phytochemicals extracted from Ceylon olive, serving as both natural reducing and stabilizing agents. The sy… Show more

“…According to the above results, it can be proved that phenols, polyphenols, and sesquiterpene compounds from the leaves and flowers of Heterotheca inuloides are able to reduce Ag +1 to Ag 0 , forming nanometer-sized nanoparticles on the surface of bovine bone powder; the PO 4 3− and CO 3 2− functional groups of BBP form a bond with Ag-NPs. The effect of pH on silver nanoparticles has been studied, showing that in a short-term study at a lower pH of the solution (4), the size of the nanoparticles increases; on the other hand, as the pH of the solution increases, the size of the nanoparticles decreases; on the other hand, in a long-term study, the size of the nanoparticles increased at different pH; this study was carried out in an aqueous solution [56,57]; in the case of the Ag-NPs/BBP system, further studies will be carried out to determine how pH affects the properties of Ag-NPs when supported on BBP.…”

Synthesis, Characterization, and Antibacterial Activity of Silver Nanoparticles Supported on Bovine Bone Powder Using Heterotheca inuloides: An In Vitro Study

“…According to the above results, it can be proved that phenols, polyphenols, and sesquiterpene compounds from the leaves and flowers of Heterotheca inuloides are able to reduce Ag +1 to Ag 0 , forming nanometer-sized nanoparticles on the surface of bovine bone powder; the PO 4 3− and CO 3 2− functional groups of BBP form a bond with Ag-NPs. The effect of pH on silver nanoparticles has been studied, showing that in a short-term study at a lower pH of the solution (4), the size of the nanoparticles increases; on the other hand, as the pH of the solution increases, the size of the nanoparticles decreases; on the other hand, in a long-term study, the size of the nanoparticles increased at different pH; this study was carried out in an aqueous solution [56,57]; in the case of the Ag-NPs/BBP system, further studies will be carried out to determine how pH affects the properties of Ag-NPs when supported on BBP.…”

Synthesis, Characterization, and Antibacterial Activity of Silver Nanoparticles Supported on Bovine Bone Powder Using Heterotheca inuloides: An In Vitro Study

Nanomaterial (AgNPs) Synthesis Using Calotropis gigantea Extract, Characterization and Biological Application in Antioxidant and Antibacterial Activity

Role of biosynthesized silver nanoparticles in mitigating hyperhydricity in micropropagated watermelon (Citrullus lanatus Thunb.) and assessment of genetic fidelity using RAPD and SCoT markers