Green Synthesis of Silver Nanoparticles Using Jidanga and Banzdo Plant  Extracts from Traditional Medicinal Sources

Bayanmunkh A; Dejidmaa D; Oyuundelger G; Irekhbayr J; Odgerel O; Boldbaatar J; Batjargal B

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Green Synthesis of Silver Nanoparticles Using Jidanga and Banzdo Plant Extracts from Traditional Medicinal Sources

VernacularTitle:Жиданга болон банздо ургамал ашиглан мөнгөний нанопартиклын фитосинтез явуулсан байдал
Author: Bayanmunkh A ¹ ; Dejidmaa D ² ; Oyuundelger G ³ ; Irekhbayr J ⁴ ; Odgerel O ⁵ ; Boldbaatar J ² ; Batjargal B ³
Author Information

1. Laboratory of Food Analysis, Department of Biology, School of Arts and Sciences, National University of Mongolia;Drug Research Institute, Monos Group
2. Laboratory of Nanomaterials, Center of Nanoscience and Nanotechnology, Department of Chemical and Biological Engineering, School of Applied Science and Engineering, National University of Mongolia
3. Laboratory of Food Analysis, Department of Biology, School of Arts and Sciences, National University of Mongolia
4. Department of chemistry, School of Arts and Sciences, National University of Mongolia
5. Laboratory of Genetic Engineering, Department of chemical and biological engineering, School and applied science and engineering, National University of Mongolia
Publication Type:Journal Article
Keywords: Jidanga; Banzdo; silver nanoparticles; phytosynthesis
From:Mongolian Medical Sciences 2023;205(4):47-58
CountryMongolia
Language:Mongolian
Abstract: Background:The global urgency for environmentally friendly technologies has steadily intensified, and as a result, the synthesis of silver nanoparticles with antibacterial properties derived from medicinal plants traditionally used to combat bacterial infections has garnered significant interest.
Goals:This research endeavors to synthesize silver nanoparticles utilizing Jidanga and Banzdo plants, widely recognized in traditional medicine, while elucidating their physical, chemical attributes, and biological potential.
Methods:The physicochemical characteristics of these silver nanoparticles, synthesized through phytosynthesis, were meticulously examined via various analytical techniques. Ultraviolet and visible light spectrophotometry (UV/Vis), Photon Cross Correlation Spectroscopy (PCCS), Atomic Force Microscope (AFM), Infrared Spectroscopy (FTIR), and X-ray Crystallography (XRD) were employed for comprehensive analysis. Additionally, their antitumor efficacy was assessed via MTT assay utilizing RAW264.7 cell cultures, while antibacterial properties were evaluated through agar diffusion tests against selected bacterial strains.
Results:Silver nanoparticles exhibited distinctive UV/Vis absorption peaks at 407-426 nm, affirming their composition. PCCS measurements revealed nanoparticles with hydrodynamic diameters spanning from ~100 nm to ~450 nm, while AFM imaging showcased spherical nanoparticles ranging from ~35 nm to ~97 nm. Crystallography analysis identified both simple cubic and polycrystalline structures. FTIR analysis unveiled the presence of organic compounds adsorbed onto the nanoparticle surfaces, in addition to silver bonds. Notably, the aqueous and ethanolic extracts of Banzdo plants demonstrated dose-dependent inhibition of RAW264.7 cell growth via the MTT assay. Furthermore, the silver nanoparticles exhibited antibacterial activity against a range of test bacteria with inhibition zones spanning 1-4 mm.
Conclusion:This study successfully synthesized silver nanoparticles utilizing Jidanga and Banzdo plants from traditional medicine, comprehensively characterizing their physicochemical attributes and demonstrating their biological activity. These findings hold promise for the future utilization of phytosynthetically derived silver nanoparticles.
Full text:2025060517454564985MMS-2023-205(4)-47-58.pdf