Özet:

In this study; non-toxic, easy to obtain and cheap reducing agent Cyprus acai leaf water extract synthesized copper oxide (CuO) nanoparticles. Green synthesized nanoparticles have been characterized by SEM/EDX, DLS, FT-IR and XRD analysis methods. Then adsorption to Telon Blue AGLF (TB AGLF) and Metylene Mavisine (MB) CuO NPs was carried out and optimum adsorption conditions were studied. The optimal environmental conditions for TB AGLF and methylene mavisine adsorption are determined at pH 7 and 8, temperature 25°C, and adsorbent skin density 1 g/L, respectively. In addition; for both paintings, it has been observed that the amount of adsorption in the painting has increased linearly with the increase in the skin in the painting in the beginning. In addition, CuO NPs are also synthesized by the chemical deduction method, in order to investigate the effect of the cuO NPs synthesis method on the adsorption of both sculptures. The results showed that in experimental studies conducted with green synthesized CuO NPs, higher adsorption capabilities were achieved compared to synthesized nanoparticles using the chemical deduction method. Adsorption balance data has been found to be better compatible with the Langmuir and Freundlich models for TB AGLF and MB respectively. The adsorption free energies calculated from the Dubinin-Radushkevich isoterm model were less than 8 kJ/mol, and the adsorption of the two isoterms occurred physically. TB AGLF and MB's adsorption kinetics to CuO NPs have been determined to be more suitable for the false second-step kinetic model, and also Weber-Morris' intra-tanch diffusion model has shown that both adsorption, in addition to internal diffusion and external diffusion resistance, are also effective.

Anahtar Kelimeler: