This article explored the effectiveness of Iron oxide magnetic nanoparticles (IONPs) in removing pollutants from wastewater generated by various industrial and agricultural sources. We explained the synthesis methods for superparamagnetic IONPs and supported IONPs, providing recent examples from the literature that illustrate their efficacy in producing nanoparticles suitable for wastewater treatment. We also discussed the application of these magnetic nanoparticles in removing a range of pollutants, including dyes, heavy metals, pharmaceuticals, and small organic molecules, highlighting the potential of various types of IONPs in wastewater remediation. Bibliometric analysis was also used, helping us understand the developmental nuances of a specific field and highlights emerging areas. Furthermore, we investigated modifications to IONPs and the creation of composites with organic and metal supports to enhance their adsorption capacity and recyclability. Lastly, we addressed the environmental impact and safety considerations associated with using IONPs in wastewater treatment, emphasizing the need for further research to tackle these issues. Overall, this comprehensive review provides valuable insights into applying IONPs in wastewater treatment, from the direct use of IONPs to enhanced supported IONPs, paving the way for sustainable and efficient water purification to promote a healthier environment.

Bibliometric; Developed treatments; Iron oxide magnetic nanoparticles; Wastewater

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