Abstract
Because of tremendous demand of different, innovative and convenient synthetic techniques, the present research establishes a remarkable synthetic protocol for new core–shell nanocomposites (CSNCs) containing magnesium oxide. MgO@poly(aniline, anthranilic acid and o-phenylenediamine) (MgO@PANI-AA-o-PDA) CSNCs were generated employing 5:5:1 molar ratio of the applicable moieties and several MgO weights through polycondensation. The CSNCs structures were confirmed by varied characterizations. The linkage between MgO and PANI-AA-o-PDA was detected through FTIR bands. The CSNCs characters have core–shell structures as well as very small size 15–22 nm. Under irradiation, the CSNCs afford effective photocatalysis efficacy towards MB dye degradation. Realistic explanations of the photocatalytic efficiency results of CSNCs towards MB were substantiated. From polydispersity index and zeta potential values, narrow PDI with a good system were clarified. This pathway is an original, simplistic, economical and advantageous procedure to develop potential CSNCs in the objective of pioneering constructions.
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