Innovative ZnO-W18O49 nanocomposites and ZnWO4 nanostructures for water treatment

Innovative ZnO-W18O49 nanocomposites and ZnWO4 nanostructures for water treatment

Abstract Nanomaterials including zinc oxide (ZnO) and non-stoichiometric (W18O49) tungsten oxide can be applied to solve the challenge related to optical properties of nanomaterials like global problems related to water treatment. Therefore, successful syntheses of zinc oxide-tungsten oxide nanocomp...

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Bibliographic Details
Main Authors: Maryam Aliannezhadi, Farnaz Doost Mohamadi, Mohaddeseh Jamali, Fatemeh Shariatmadar Tehrani
Format: Article
Language:English
Published: Nature Portfolio 2025-03-01
Series:Scientific Reports
Subjects:
Nanocomposite
Hydrothermal method
Green synthesis
W18O49 nanorods
ZnO nanostructures
Photocatalytic activity
Online Access:https://doi.org/10.1038/s41598-025-93903-8
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Summary:Abstract Nanomaterials including zinc oxide (ZnO) and non-stoichiometric (W18O49) tungsten oxide can be applied to solve the challenge related to optical properties of nanomaterials like global problems related to water treatment. Therefore, successful syntheses of zinc oxide-tungsten oxide nanocomposites and ZnWO4 nanostructures are reported by hydrothermal method and using different masses of green synthesized ZnO nanoparticles (NPs). The nanostructures are pure and only zinc, tungsten, and oxygen elements are observed in the synthesized samples. Alterations of green synthesized ZnO NPs mass used in the nanocomposite synthesis process influence the nanocomposites’ structural, morphological, and optical properties. Different morphologies including nanorods, nanofibers, cabbage-like structures, short nanorods, and nanoflakes are formed using different masses of the used ZnO NPs. The photocatalytic activities of the nanocomposites are evaluated by removing methylene blue (MB- 10 ppm) under UV irradiation in the neutral (pH = 7) and acidic (pH = 5) solutions. Interestingly, 10 mg of ZW0.05 nanocomposite demonstrates the excellent deterioration of MB with efficiencies of 99% and 91% within 170 min in the neutral and acidic solutions, respectively. Furthermore, the quantity of catalyst was reduced to 5 mg, demonstrating the capacity to degrade 87% (94%) of MB at pH = 7 (pH = 5). Therefore, one of the synthesized nanocomposites can be an excellent candidate for water treatment even in acidic condition.
ISSN:2045-2322

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