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Nanomaterials (NMs) are anticipated to have a significant impact on multiple sectors due to their potential to enhance performance, enhance safety, and be synthesized through novel methods. The utiliz...ation of Fe_3O_4 nanoparticles (NPs) is advantageous compared to other materials because of the diminutive size and elevated surface area to volume ratio of these NPs. The increasing significance of Fe_3O_4 NPs in environmental applications is attributed to their photocatalytic properties. The assessment of the photocatalytic efficacy of Fe_3O_4 NPs was conducted through the observation of various dyes, such as methylene blue (MB), methyl red (MR), and Rhodamine B (RB). Fe_3O_4 has been utilized by multiple researchers for the purpose of degrading diverse dyes. The photocatalytic efficacy of Fe_3O_4 NPs is contingent upon various factors, including their crystalline morphology, particle dimensions, and other pertinent parameters. Our research will elucidate the variables that influence the efficiency of Fe_3O_4 dye degradation.続きを見る
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