Issue 11, 2023, Issue in Progress

Development of NaY9Si6O26:Yb3+ phosphors with high thermal stability for NIR anti-counterfeiting: study of its crystal structure and luminescent properties

Abstract

Near-infrared (NIR) radiation has generated considerable industrial and research interest. However, NIR phosphors for this are limited by low quantum efficiency and broad spectra. Rare-earth-containing compounds doped with activators as host systems for NIR phosphors may resolve these limitations. Yb3+-doped NaY9Si6O26 phosphors were synthesized using a conventional solid-state reaction method. The main phase of the synthesized phosphor samples exhibited a hexagonal structure NaY9Si6O26 phase, and had an angular-shape with an average grain size of 1–3 μm. The NaY9Si6O26:Yb3+ phosphors showed a near-infrared emission from 950 to 1100 nm, which was attributed to the 2F5/22F7/2 transition of Yb3+ ions under 270 and 920 nm excitation. The excitation spectra, recorded by monitoring the emission at 985 nm, showed two bands in the ultraviolet and infrared regions, which correspond to the charge transfer transition and the 2F7/22F5/2 transition of Yb3+ ions. At 300 °C, the emission intensity of the NaY9Si6O26:Yb3+ phosphor remained constant at 82%. Furthermore, the thermal degradation was negligible after cooling, suggesting the possibility of application in advanced anti-counterfeiting applications.

Graphical abstract: Development of NaY9Si6O26:Yb3+ phosphors with high thermal stability for NIR anti-counterfeiting: study of its crystal structure and luminescent properties

Article information

Article type
Paper
Submitted
20 Jan 2023
Accepted
27 Feb 2023
First published
08 Mar 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 7597-7602

Development of NaY9Si6O26:Yb3+ phosphors with high thermal stability for NIR anti-counterfeiting: study of its crystal structure and luminescent properties

T. W. Kang, Y. B. Choi, C. H. Kang, Y. J. Park, J. H. Kim, B. Bae and S. W. Kim, RSC Adv., 2023, 13, 7597 DOI: 10.1039/D3RA00427A

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