Optimization of the Synthesis of Nanostructured Tungsten-Molybdenum Bimetallic Oxide

Well-defined structural framework of ZrSnO 4 nanopowder has been synthesized for the fabrications of cost-effective and sensitive devices which give final reproducible result with reliability under ideal conditions. The synthesis was carried out at moderate temperature and then finally dried in the laboratory oven and then followed with calcination at 1000°C for 4 h to get phase selective product. It was observed that gelation time depends on the concentration of reactants and temperature. The characterization of ZrSnO 4 was carried out with XRD, SEM, TEM, UV, thermal analysis, DLS and FT-IR techniques. With adjustment of reaction parameters, the systematic tuning of the particle size, shape and functional properties can be controlled. It was concluded that self-assembly is an integral part for the synthesis and opens a new exciting opportunity for better understanding the formation of nanostructure framework from micro-to nanoscale along with mechanistic via wet chemical approach. ZrSnO 4 has vital role in identifying its potential cytotoxicity in the biological systems. The cytotoxicity effects of ZrSnO 4 nanopowder in vitro were evaluated in three different human cell types (hepatocytes, mesenchymal stem cells and neuronal cells). Acute exposure of nanoparticles was found to have greater cytotoxic effect at higher concentration (30 lg/ml). However, partial detoxification was observed during nanoparticles exposure at day 6. The study concluded that an initial stress from nanoparticles incorporates sealing or detoxification of nanoparticles which may help to recover cell viability.

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Carbon bi-metallic molybdenum tungsten oxide composite as a potential electrode for high-performance asymmetric supercapacitor

Mohamedy,

El-Dek,

Abd Elhamid

et al. 2024

Journal of Alloys and Compounds

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Optimization of the Synthesis of Nanostructured Tungsten-Molybdenum Bimetallic Oxide

Cited by 5 publications

References 21 publications

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Green approach for the synthesis and characterization of ZrSnO4 nanopowder

Carbon bi-metallic molybdenum tungsten oxide composite as a potential electrode for high-performance asymmetric supercapacitor

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