This comprehensive review article discusses the potential applications of graphene oxide-silver nanoparticles (GO-Ag NPs) in various fields, including biomedical, catalytic, electrochemical detection, and wastewater treatment technologies. GO-Ag NPs have gained significant attention due to their unique properties, such as excellent electrical, mechanical, and thermal conductivity, as well as their protective capabilities. The review summarizes the different starting materials and reducing agents that have been used to produce GO-Ag NPs with particle sizes ranging from 2 to 90 nm. Furthermore, the article highlights the various applications of GO-Ag NPs, such as their use in drug delivery, bioimaging, and cancer therapy. Additionally, the review discusses the potential of GO-Ag NPs in catalysis, electrochemical detection, and wastewater treatment. Overall, this review provides a comprehensive overview of the potential uses of GO-Ag NPs and emphasizes the need for further research to develop more straightforward methods for their production and application.
In this study, silver nanoparticles were synthesized using sun-mediated aqueous extract of the stem, flower and leaf of the plant Thymus linearis. The effect of sunlight on extract absorbance is measured using UV–Vis spectroscopy. The resultant nanoparticle F-Ag–NPs, L-Ag–NPs, S-Ag–NPs were characterized using modern techniques including UV–Vis spectroscopy, ATR-FTIR, Zeta potential, Zeta size analyzer, XRD and SEM. The reaction takes place in presence of sunlight and the color changes from light yellow to red finally, dark brown was observed indicating the completion of the reaction. In the case of Flower extract, F-Ag–NPs produced maximum absorbance at a higher concentration of AgNO3 with lambda max 403, and 405[Formula: see text]nm at 5[Formula: see text]mM and 10[Formula: see text]mM respectively. In the case of stem and leaves extract, maximum absorbance was seen at a low concentration of AgNO3 with lambda max range from 391[Formula: see text]nm to 402[Formula: see text]nm and 409–425[Formula: see text]nm respectively. The ATR-FTIR spectrum confirms the presence of capping agents which are complemented by a negative zeta potential value. The Zeta sizer revealed the diameter (d-nm) of F-Ag–NPs, L-Ag–NPs, S-Ag–NPs, 73.26, 59.26 and 51.32 respectively. The Ag–NPs also showed anti-bacterial, DDPH, and ABTS activity.
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