METHODS FOR OBTAINING IRON OXIDE NANOPARTICLES
Keywords:
Chemistry, Magnetic nanocomposite sorbents, nanoparticles, anic or organic compoundsAbstract
Today, the importance of chemistry in the scientific and technical life of the world is showing its true impact. The increasing number of publications in the field of synthesis of magnetic sorption materials and their application in chemical analysis indicates that the search for new magnetic sorbents is ongoing. Although the sorption capacity of iron oxide nanoparticles is directly quite high, they are rarely used as magnetic sorbents. The relative simplicity and low cost of obtaining magnetic sorbents allow for their synthesis.
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1. Niu H., Zhang D., Zhang S., Zhang X., Meng Z., Cai Y. Humic acid coated Fe3O4 magnetic nanoparticles as highly efficient Fenton-like catalyst for complete mineralization of sulfathiazole // Journal of Hazardous Materials. – 2011. – V. 190. – №. 1-3. – P. 559-565.
2. Lu A. H., Salabas E. L., Schüth F. Magnetic nanoparticles: synthesis, protection, functionalization, and application // Angewandte Chemie International Edition. – 2007. – V. 46. – №. 8. – P. 1222-1244.
3. Laurent S. Forge, D., Port, M., Roch, A., Robic, C., Vander Elst, L., & Muller, R. N.. Magnetic iron oxide nanoparticles: synthesis, stabilization, vectorization, physicochemical characterizations, and biological applications //Chemical reviews. – 2008. – V. 108. – №. 6. – P. 2064-2110.
4. Massart R. Preparation of aqueous magnetic liquids in alkaline and acidic media // IEEE transactions on magnetics. – 1981. – V. 17. – №. 2. – P. 12471248.
5. Xu P., Zeng G.M., Huang D.L., Feng C.L., Hu S., Zhao M.H., Lai C., Wei Z., Huang C., Xie G.X., Liu Z.F. Use of iron oxide nanomaterials in wastewater treatment: a review // Sci. Total Environ. - 2012. -V. 424. P. -1.
6. Li X. S., Zhu G.T., Luo Y.B., Yuan B.F., Feng Y.Q. Synthesis and applications of functionalized magnetic materials in sample preparation // TrAC Trends in Analytical Chemistry. – 2013. – V. 45. – P. 233-247.
7. Petcharoen K., Sirivat A. Synthesis and characterization of magnetite nanoparticles via the chemical co-precipitation method // Materials Science and Engineering: B. – 2012. – V. 177. – №. 5. – P. 421-427.
8. Kubrakova I. V., Koshcheeva I. Y., Pryazhnikov D. V., Martynov L. Y., Kiseleva M. S., Tyutyunnik O. A. Microwave synthesis, properties and analytical possibilities of magnetite-based nanoscale sorption materials // Journal of Analytical Chemistry. – 2014. – V. 69. – P. 336-346.
9. Бычкова А. В. Сорокина О. Н., Розенфельд М. А., Коварский А. Л. Многофункциональные биосовместимые покрытия на магнитных наночастицах // Успехи химии. – 2012. – Т. 81. – №. 11. – С. 1026-1050.
10. Afkhami A., Moosavi R. Adsorptive removal of Congo red, a carcinogenic textile dye, from aqueous solutions by maghemite nanoparticles // Journal of hazardous materials. – 2010. – V. 174. – №. 1-3. – P. 398-403.
11. Ma W. F., Zhang Y., Li L. L., You L. J., Zhang P., Zhang Y. T., ... Wang C. C. Tailor-made magnetic Fe3O4@mTiO2 microspheres with a tunable mesoporous anatase shell for highly selective and effective enrichment of phosphopeptides // ACS Nano. – 2012. – V. 6. – №. 4. – P. 3179-3188.
12. Tolmacheva V.V., Apyari V. V., Kochuk E. V., Dmitrienko S. G. Magnetic adsorbents based on iron oxide nanoparticles for the extraction and preconcentration of organic compounds // Journal of Analytical Chemistry. – 2016. – V. 71. – P. 321-338.
13. Moliner-Martínez Y., Ribera A., Coronado E., Campíns-Falcó P. Preconcentration of emerging contaminants in environmental water samples by using silica supported Fe3O4 magnetic nanoparticles for improving mass detection in capillary liquid chromatography // Journal of Chromatography A. – 2011. – V. 1218. – №. 16. – P. 2276-2283.
14. Norjigitovna E.N. Yadro-qobiq tuzilmasi bo’lgan magnitit sorbentlarni olish usullari. IJODKOR O'QITUVCHI, (2024), 4(43), 76-80.
