4.7 Article

Monitoring Ag nanoparticles growth in undoped and Er3+-doped glasses by in-situ UV-Vis spectroscopy and its luminescent properties

Journal

JOURNAL OF NON-CRYSTALLINE SOLIDS
Volume 609, Issue -, Pages -

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ELSEVIER
DOI: 10.1016/j.jnoncrysol.2023.122286

Keywords

Glasses; Silver nanoparticles; Surface plasmon resonance; Erbium

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Heavy metal germanate glasses with silver and erbium were prepared using the melt-quenching method. Controlled thermal treatment led to the formation of Ag nanoparticles, which were monitored using in-situ UV-Vis spectroscopy. TEM images showed that Ag nucleation began after 60 minutes and reached an average size of 4.3 nm after 210 minutes. The luminescent properties were influenced by the size of the Ag nanoparticles, as observed through nanoclusters Ag emission and upconversion of Er3+. Overall, the results highlight the importance of controlling the size of Ag nanoparticles for tunable emission in these glasses, suggesting their potential for optical applications.
Heavy metal germanate glass compositions containing silver and erbium were prepared using the melt -quenching methodology. Ag nanoparticle formation was achieved by controlled thermal treatment and the growth was monitored by in-situ UV-Vis spectroscopy. After treatment, TEM images revealed that Ag nucleation begins after 60 min reaching an average size of 4.3 nm after 210 min. The photoluminescent properties were studied through nanoclusters Ag emission and visible upconversion of Er3+, which point out a clear dependence on the Ag nanoparticles size on the luminescent properties of the material. Furthermore, Judd-Ofelt parameters were calculated and significantly varied in respect to Ag addition and heat treatment conditions, corroborating with the proposed tunable emission, and the presence of Ag aggregates. Therefore, these results highlight the importance of the Ag nanoparticles size to control the luminescent properties of these glasses, demonstrating their potential for development of optical applications including white and green/red tunable emitting devices.

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