Abstract
Based on the optimization results the bulk quantities of copper oxide nanoparticles is successfully synthesized using the Beta vulgaris aqueous extract. The optimised system is characterised based on UV -Visible, FT-IR, XRD, SEM, TEM, EDX (EDAX), and particle size analyser. The green synthesised BV metal Oxide nanoparticles are subjected for various pharmacological applications. The biologically synthesized copper oxide nanoparticles is in the average sizes of 32 - 82nm. Regarding Photocatalytic activity, BV-CuO nanoparticles revealed the highest degradation capacity. On, Anti-bacterial activity BV-CuO nanoparticles showed the better inhibitory effects against five bacterial strains. In In-vitro anti-cancer activity copper oxide nanoparticles exhibits anti-cancer effects on MCF-7 cell line. Beta Vulgaris mediated copper oxide (BV-CuO) nanoparticles showed greatest anti-diabetic activity on alpha-amylase assay. Similar, Beta Vulgaris mediated Copper oxide (BV-CuO) nanoparticles showed greatest anti-diabetic activity on alpha-glucosidase assay. The photocatalysts may provide a promising application for the degradation of dyes from industrial effluents.
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