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Synthesis and characterizations of water-based ferrofluids of substituted ferrites Fe1−xBxFe2O4, B=Mn, Co (x=0–1) for biomedical applications

机译：用于生物医学的取代铁氧体Fe1-xBxFe2O4，B = Mn，Co（x = 0-1）的水性铁磁流体的合成与表征

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Nanomagnetic particles have great potential in the biomedical applications like MRI contrast enhancement, magnetic separation, targeting delivery and hyperthermia. In this paper, we have explored the possibility of biomedical applications of [Fe1−xBxFe2O4, B=Mn, Co] ferrite. Superparamagnetic particles of substituted ferrites [Fe1−xBxFe2O4, B=Mn, Co (x=0–1)] and their fatty acid coated water base ferrofluids have been successfully prepared by co-precipitation technique using NH4OH/TMAH (Tetramethylammonium hydroxide) as base. In vitro cytocompatibility study of different magnetic fluids was done using HeLa (human cervical carcinoma) cell lines. Co2+-substituted ferrite systems (e.g. CoFe2O4) is more toxic than Mn2+-substituted ferrite systems (e.g. MnFe2O4, Fe0.6Mn0.4Fe2O4). The later is as cytocompatible as Fe3O4. Thus, Fe1−xMnxFe2O4 could be useful in biomedical applications like MRI contrast agent and hyperthermia treatment of cancer.

机译：纳米磁性颗粒在生物医学应用中具有巨大潜力，例如MRI对比增强，磁分离，靶向递送和热疗。在本文中，我们探索了[Fe1-xBxFe2O4，B = Mn，Co]铁氧体生物医学应用的可能性。以NH4OH / TMAH（氢氧化四甲铵）为基础，通过共沉淀技术成功制备了取代铁氧体[Fe1-xBxFe2O4，B = Mn，Co（x = 0-1）]的超顺磁性颗粒及其脂肪酸包覆的水基铁磁流体。。使用HeLa（人宫颈癌）细胞系进行了不同磁流体的体外细胞相容性研究。 Co 2+取代的铁氧体体系（例如CoFe2O4）比Mn2 +取代的铁氧体体系（例如MnFe2O4，Fe0.6Mn0.4Fe2O4）毒性更大。后者与Fe3O4具有细胞相容性。因此，Fe1-xMnxFe2O4可用于生物医学应用，如MRI造影剂和癌症的高热治疗。

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GIRI JYOTSNENDU; PRADHAN PALLAB; SOMANI VAIBHAV; CHELAWAT HITESH; CHHATRE SHREERANG; BANERJEE RINTI; BAHADUR DHIRENDRA;
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年度 2008
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7. Gd3+ substituted of Mn0.5Zn0.5GdxFe2−xO4 (x=0.1, 0.2, 0.3, 0.4) ferrites for ferrofluids application [O] . Arora Manju, Kumar Ashok, Pant R.P. 2010

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Synthesis and characterizations of water-based ferrofluids of substituted ferrites Fe1−xBxFe2O4, B=Mn, Co (x=0–1) for biomedical applications

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