Thermally stable luminescence and dosimetric features of Ho(III) activated tungstate double perovskite

Luminescent efficient tungstate double perovskites Ca3WO6 doped with Ho3+ were synthesized via the solid-state reaction at 1200 C°. The resulting phosphors were analyzed using Rietveld refinement of X-ray diffraction (XRD) data, confirming a monoclinic crystal structure with crystallite sizes rangin...

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Bibliographic Details
Published in:Journal of luminescence 2024-11, Vol.275, p.120775, Article 120775
Main Authors: Degda, Naresh, Patel, Nimesh, Singhal, Malika, Murthy, K.V.R., Chauhan, Naveen, Srinivas, M.
Format: Article
Language:English
Subjects:
Double perovskite
Photoluminescence
Radiation dosimetry
Thermoluminescence
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Summary:Luminescent efficient tungstate double perovskites Ca3WO6 doped with Ho3+ were synthesized via the solid-state reaction at 1200 C°. The resulting phosphors were analyzed using Rietveld refinement of X-ray diffraction (XRD) data, confirming a monoclinic crystal structure with crystallite sizes ranging between 50 and 55 nm. Optical bandgap determination was facilitated by diffusion reflectance spectra (DRS). Fourier transform infrared (FTIR) studies were conducted to identify functional group vibrations. The optical excitation of the Ca3WO6:Ho3+ phosphors under different excitation conditions resulted in intense green photoluminescence (PL) emission at 545 nm, indicative of the 5F4–5I8 transition of Ho3+ ions. Thermal stability assessment of Ca3WO6:1 % Ho3+ phosphor under blue excitation (454 nm) revealed good thermally stable luminescence about 85.32 % at LED working temperature (150 °C). PL decay studies were conducted to analyze fluorescent behaviour, wherein by means of PL decay lifetime, the PL quantum efficiency of Ca3WO6:1 % Ho3+ phosphor is computed to be 91.1 %. The CIE color coordinates of the phosphors being investigated reside within the green spectral region, with a calculated color purity of 93.25 % observed for Ca3WO6:1%Ho3+. Furthermore, the phosphors under study exhibited high-quality thermoluminescence (TL) after beta irradiation. The detailed TL characterization conducted to assess dosimetric properties. The impact of Ho3+ concentrations and beta dose on TL intensity are two major aspects that have been investigated in detail. TL fading experiments were performed to determine dose storage capacity over a month after beta irradiation. Additionally, the various heating rate (VHR) experiments are conducted to determine the TL kinetic parameters. Besides, the glow curve deconvolution (GCD) for trap parameter determination is also applied, where the results obtained are comparable with the VHR results. •Ho3+ doped Ca3WO6 down-conversion phosphor is prepared for lighting devices and radiation dosimetry.•The phosphor under study exhibited excellent PL under 454 nm excitation, and excellent TL after beta irradiation.•The LED parameters, thermal stability and PL quantum efficiency are found to 85.32 % (at 150 C°) and 91.1 % efficiency, respectively.•In the TL studies, the phosphors were examined for dose-response, fading effect, and effect of heating rate.
ISSN:0022-2313
DOI:10.1016/j.jlumin.2024.120775