Synthesis characterization of substituted 2 6 diarylpiperidin 4 one azine derivatives using highly efficient nanocatalyst and their biological studies

Abstract

The production of innovative nanocomposites composed of various newlineorganic materials and their usage in various applications are active and rapidly newlineexpanding fields in nanoscience. For the past few decades, metal oxides have newlineproven to be an astounding substance in the fields of commercial and scientific newlineuse. Due to their wide properties, they are being used in biomedicine, newlinephotonics, gas sensing, photonics, and electronics. The combination of two or newlinemore nano-object materials for the construction of multifunctional newlinenanomaterials, the combination of the material properties of the component, newlineand the production of new qualities are the driving forces behind this interest. newlineTiO2 and SnO2 in particular have been employed extensively in newlineenergy and environmental applications.Due to the fact that both materials have newlineequivalent band gaps and photocatalytic processes, SnO2 is regarded to be a newlinemore effective photocatalytic material than TiO2 in general.Zinc oxide newlinenanomaterial fabrication has received a lot of attention due to its size-dependent newlineproperties and many applications. The goal of this paper is to create modified newlineSnO2 nanoparticles, characterise them, and investigate their photocatalytic newlineactivity in the areas of colour degradation, hydrophobicity, and newlinephotoconductivity. newline