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AgNPs incorporated in Eu(III)-doped hydroxyapatite biomaterial: Spectroscopic, cytotoxicity, and antimicrobial investigation

This study aimed to synthesize and to characterize hydroxyapatite with antimicrobial action. For the synthesis, the precursors calcium nitrate and phosphoric acid were employed; europium(III), 1 % w/w in relation to calcium(II), was used as spectroscopic probe, to investigate structural alterations....

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Bibliographic Details
Published in:Optical materials. X 2024-02, Vol.21, p.100286, Article 100286
Main Authors: Pontes, Lauany Mazzon, de Faria, João Vitor Gonçalves, Grespi, Marcela Guedes Matos, Rocha, Lucas Alonso, Nassar, Eduardo José
Format: Article
Language:English
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Summary:This study aimed to synthesize and to characterize hydroxyapatite with antimicrobial action. For the synthesis, the precursors calcium nitrate and phosphoric acid were employed; europium(III), 1 % w/w in relation to calcium(II), was used as spectroscopic probe, to investigate structural alterations. Silver nanoparticles, as antimicrobial agents, were added to the resulting material. Formation of the hydroxyapatite phase was confirmed by X-ray diffraction and vibrational spectroscopy in the infrared region. Incorporation of silver nanoparticles in the material was confirmed by electronic absorption spectroscopy in the ultraviolet–visible region, through the absorption band at approximately 400 nm. Scanning electron microscopy revealed that the material had adequate morphology to induce bone formation. The excitation, emission, and lifetime measurements of the structural probe, europium(III), showed that the hydroxyapatite unit cell had two symmetry sites. Cytotoxicity evaluation in human cells showed that the material was toxic at concentrations above 1250 μg/mL. At 2000 ppm, the material displayed antimicrobial activity against E. coli, but the maximum evaluated concentration was insufficient to verify activity against S. aureus. Therefore, hydroxyapatite bearing silver nanoparticles is a promising material for application in the medical area. •Crystallographic sites in hydroxyapatite were confirmed by europium(III) ion spectroscopy.•AgNPs incorporated in the hydroxyapatite matrix present antimicrobial action against E. coli.•AgNPs incorporated in hydroxyapatite matrix present low cytotoxicity.
ISSN:2590-1478
2590-1478
DOI:10.1016/j.omx.2023.100286