In the present study ZnO@TiO2 nanocomposites were obtained simply mixing home prepared ZnO and commercial TiO2 (P25) by a ball milling apparatus. ZnO was synthesized by a hydrothermal method by using zinc acetate dihydrate as Zn2+ precursor, polyvinyl pyrrolidone as surfactant and water or ethylene glycol or triethylene glycol as solvent. Structural and optical characterizations were performed 03 using techniques such as X-Ray Diffraction (XRD), Scanning (SEM) and Transmission (TEM) Electron Microscopy, Diffuse UV–Visible spectroscopy (DRS) and Specific Surface Area (SSA) determinations, while electrochemical measurements were made to get insight into the electronic properties of the photocatalysts. The photocatalytic degradation of two model pollutants, i.e., Rose Bengal and Rhodamine B, was carried out to investigate the performances of the nanocomposites prepared at different ZnO/TiO2 ratios. The hybrid samples displayed higher activity than bare ZnO and TiO2 ascribable to the enhancement of the charges transfer process. The results obtained in the presence of scavenging agents demonstrated that the active species (h+, e−, •OH, and O2•-) work together to degrade dyes.
Abassi, K., Ben Ali, A., Ben Chaabane, T., Younas, M., Pecoraro, C.M., Altalhi, T., et al. (2025). Investigating the photocatalytic activity of hybrid ZnO@TiO2 nanocomposites towards dyes degradation. MATERIALS CHEMISTRY AND PHYSICS, 344 [10.1016/j.matchemphys.2025.131172].
Investigating the photocatalytic activity of hybrid ZnO@TiO2 nanocomposites towards dyes degradation
Pecoraro C. M.;Bellardita M.
2025-10-15
Abstract
In the present study ZnO@TiO2 nanocomposites were obtained simply mixing home prepared ZnO and commercial TiO2 (P25) by a ball milling apparatus. ZnO was synthesized by a hydrothermal method by using zinc acetate dihydrate as Zn2+ precursor, polyvinyl pyrrolidone as surfactant and water or ethylene glycol or triethylene glycol as solvent. Structural and optical characterizations were performed 03 using techniques such as X-Ray Diffraction (XRD), Scanning (SEM) and Transmission (TEM) Electron Microscopy, Diffuse UV–Visible spectroscopy (DRS) and Specific Surface Area (SSA) determinations, while electrochemical measurements were made to get insight into the electronic properties of the photocatalysts. The photocatalytic degradation of two model pollutants, i.e., Rose Bengal and Rhodamine B, was carried out to investigate the performances of the nanocomposites prepared at different ZnO/TiO2 ratios. The hybrid samples displayed higher activity than bare ZnO and TiO2 ascribable to the enhancement of the charges transfer process. The results obtained in the presence of scavenging agents demonstrated that the active species (h+, e−, •OH, and O2•-) work together to degrade dyes.
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