Structural, magnetic, and optical properties of ZnFe.sub.2O.sub.4/RO nanocomposites

The sol-gel method is used to prepare the nanocomposites ZF/RO (ZF = ZnFe.sub.2O.sub.4, RO = CdO, NiO, Ga.sub.2O.sub.3, SnO.sub.2, and TiO.sub.2). The XRD showed that the ZF/RO nanocomposite' crystal structure contained many phases, and the lattice properties and crystal size of the ZF were aff...

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Bibliographic Details
Published in:Journal of materials science 2023-05, Vol.58 (19), p.7948
Main Authors: Roumaih, Kh, Ismail, S. M, Labib, Sh, Helal, Ahmed
Format: Article
Language:English
Subjects:
Analysis
Crystals
Nanotubes
Nuclear energy
Optical properties
Structure
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Summary:The sol-gel method is used to prepare the nanocomposites ZF/RO (ZF = ZnFe.sub.2O.sub.4, RO = CdO, NiO, Ga.sub.2O.sub.3, SnO.sub.2, and TiO.sub.2). The XRD showed that the ZF/RO nanocomposite' crystal structure contained many phases, and the lattice properties and crystal size of the ZF were affected by the presence of the RO traces. All samples have surfaces that resemble nanoflakes that vary in size based on the SEM pictures; however, the ZF/Cd sample has a nanotube microstructure. ESR and VSM were measured at room temperature and showed ferrimagnetic behavior for all samples. The optical properties showed the band gaps for ZF, ZF/Cd, ZF/Ga, ZF/Ni, ZF/Sn, and ZF/Ti nanocomposites were 1.773, 1.789, 1.786, 1.763, 1.822, and 1.835 eV, respectively. The spectral PL intensity of ZF/Sn, ZF/Cd, and ZF/Ti nanocomposites is partially low compared to the spectrum for the ZF, and vice versa for ZF/Ni and ZF/Ga, which show an increase in the recombination for e.sup.-/h.sup.+. ZF/RO nanocomposites' practical sunlight consumption ability and recombination of photoinduced charge carriers account for their photocatalytic efficacy. This study is part of a research project investigating the relationship between two compounds with different structures and properties.
ISSN:0022-2461
DOI:10.1007/s10853-023-08539-8