Temperature influence on NiFeMo nanoparticles magnetic properties and their viability in biomedical applications

Muchenski, Fabio; Gonçalves, Jenifer Pendiuk; Ribeiro, Yasmin Carla; Franco, Célia Regina Cavichiolo; Oliveira, Carolina Camargo de; Marcon, Bruna Hilzendeger; Robert, Anny; Medeiros, Lia Carolina Soares de; Oliveira, Ronei Cardoso de; Oliveira, Adilson Jesus Aparecido de; Mattoso, Ney

Article

Registro en:

MUCHENSKI, Fábio et al. Temperature influence on NiFeMo nanoparticles magnetic properties and their viability in biomedical applications. Journal of Biomedical Materials Research, p. 1–11, 2023.

1552-4965

https://www.arca.fiocruz.br/handle/icict/57826

https://doi.org/10.1002/jbm.b.35248

https://repositorioslatinoamericanos.uchile.cl/handle/2250/8851078

Autor

Muchenski, Fabio

Gonçalves, Jenifer Pendiuk

Ribeiro, Yasmin Carla

Franco, Célia Regina Cavichiolo

Oliveira, Carolina Camargo de

Marcon, Bruna Hilzendeger

Robert, Anny

Medeiros, Lia Carolina Soares de

Oliveira, Ronei Cardoso de

Oliveira, Adilson Jesus Aparecido de

Mattoso, Ney

Institución

Instituto de Comunicação e Informação Científica e Tecnológica em Saúde (Brasil)

Resumen

iFeMo alloy nanoparticles were synthesized by co-precipitation in the presence of organic additives. Nanoparticles thermal evolution shows that there is a significant increase in the average size (from 28 to 60 nm), consolidating a crystalline structure of the same type as the Ni3Fe phase but with lattice parameter a = 0.362 nm. Measurements of magnetic properties follow this morphological and structural evolution increasing saturation magnetization (Ms) by 578% and reducing remanence magnetization (Mr) by 29%. Cell viability assays on as-synthesized revealed that nanoparticles (NPs) are not cytotoxic up to a concentration of 0.4 μg/mL for both non-tumorigenic (fibroblasts and macrophages) and tumor cells (melanoma).

2022

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