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In situ synthesis of Fe 3 O 4 nanoparticles coated by chito-oligosaccharides: physico-chemical characterizations and cytotoxicity evaluation for biomedical applications

Fe O nanoparticles coated with chito-oligosaccharides (COS) were prepared in situ by a simple co-precipitation method through a mixing of iron ions (Fe and Fe ) and COS aqueous solutions followed by precipitation with ammonia. The impact of COS with different degree of polymerization (DP 10, 24 and...

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Bibliographic Details
Published in:Nanotechnology 2020-04, Vol.31 (17), p.175602
Main Authors: de Oliveira, Paula Nunes, Moussa, Amani, Milhau, Nadège, Dosciatti Bini, Raquel, Prouillac, Caroline, Ferraz de Oliveira, Breno, Dias, Gustavo Sanguino, Santos, Ivair Aparecido, Morfin, Isabelle, Sudre, Guillaume, Alcouffe, Pierre, Delair, Thierry, Cótica, Luiz Fernando, Trombotto, Stéphane, Pin, Didier, David, Laurent
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Language:English
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Summary:Fe O nanoparticles coated with chito-oligosaccharides (COS) were prepared in situ by a simple co-precipitation method through a mixing of iron ions (Fe and Fe ) and COS aqueous solutions followed by precipitation with ammonia. The impact of COS with different degree of polymerization (DP 10, 24 and 45) and degree of N-acetylation (DA) ∼ 24% and 50% (exhibiting high solubility) on the synthesis and physical properties of the coated magnetic nanoparticles was evaluated. Several advantages were found when the magnetic nanoparticles were prepared in the presence of the studied COS, such as: preparation of functionalized magnetic nanoparticles with narrower size distributions and, consequently, higher saturation magnetization (an increase of up to 22%); and an expressive increasing in the concentration of COS-coated magnetic nanoparticles (up to twice) in the cell viability test in comparison with pure Fe O nanoparticles. Furthermore, among the analyzed samples, the magnetic nanoparticles coated by COS with DA ∼ 50% present a higher cytocompatibility. Our results allow envisioning various biomedical applications, valorizing the use of coated-magnetic nanoparticles for magnetic-field assisted drug delivery, enzyme or cell immobilization, or as a marker for specific cell tracking, among others.
ISSN:0957-4484
1361-6528
DOI:10.1088/1361-6528/ab68f9