Recyclability and catalytic characteristics of copper oxide nanoparticles derived from bougainvillea plant flower extract for biomedical application

Abstract This work aims to investigate the environmentally sustainable technique synthesize copper nanoparticles using bougainvillea flower ethanolic extract at ambient temperature. Copper have considerable potential for reducing environment’s harmful pigments and nitrogen contaminants. The oxidized nanoscale catalysts are enclosed inside nanomaterial, which as a benign resource capping agents. Ultraviolet spectroscopic, transmission electron microscopy (TEM), X-ray crystallography (XRD) techniques were used evaluate produced nanocrystals. particles been very robust, cylindrical in form, an outer diameter of 12 nm. Furthermore, under normal conditions, oxide (CuO) nanomaterials demonstrated strong photocatalytic efficiency liquid media oxidation Congo red, bromothymol blue, 4-nitrophenol acidic solution acetic anhydride. Moreover, CuO nanocrystalline enzyme could be readily vortexed or five cycles with exchange rate even over 90%. evaporation process caused around 18% loss weight between 25°C 190°C, while soil organic breakdown almost 31% 700°C. As result, little reduction enzymatic effectiveness recoverable multilayer substrate might attributed catalytic degradation throughout spinning processing.