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Thermally stimulated luminescence properties of MgTa2O6 prepared by solid-state chemical reaction

V Mlotswa, D., V. R. Orante-Barron, B. M. Mothudi, S. J. Mofokeng, G. N. Ngubeni, Dirk Poelman (UGent) and L. L. Noto
(2022) JOURNAL OF LUMINESCENCE. 252.
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Abstract
Persistent luminescent (PLUM) materials have been developed for a variety of applications in road marking, toys decoration, safety and bio-imaging. Such materials are set to answer the need for energy conservation. In this work, Magnesium Tantalate (MgTa2O6) compound was synthesized by a conventional solid-state chemical re-action route at 800 degrees C for 8 h, after ball milling the mixed precursors. The MgTa2O6 compound was confirmed with only minor impurities of Ta2O5, as identified by X-ray diffraction (XRD). The scanning electron microscopy (SEM) images of MgTa2O6 showed a surface morphology with different shapes and sizes, which are bound to each other. The energy band gap of the material was approximated to 4.34 eV using the Kubelka-Munk relation. The photoluminescence (PL) spectrum displayed a broad emission between 360 and 780 nm, when the sample was excited with a 295 nm beam, as observed from the photoluminescence excitation (PLE) spectrum. Upon investigating the thermoluminescence (TL) properties of the compound, the glow curves revealed the presence of at least three prominent electron trapping centres at-108,-258, and-315 degrees C. The competition between electron trapping centres, pre-heating effects, stability of the electron trapping centres and TL fading were examined. In addition, the depth of the electron trapping centres was determined. From the TL analysis, the prominent electron trapping centres were approximated to 0.75 +/- 0.04 eV, 1.28 +/- 0.07 and 1.55 +/- 0.02 eV. Additionally, from the stable electron trapping centres and TL signal fading study, results indicated that MgTa2O6 is a promising material for energy storage applications.
Keywords
luminescence, thermoluminescence, Solid-state chemical reaction, Persistent luminescence, Electron trapping centres, PERSISTENT LUMINESCENCE, THERMOLUMINESCENCE, EMISSION, MECHANISMS

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MLA
Mlotswa, D., V., et al. “Thermally Stimulated Luminescence Properties of MgTa2O6 Prepared by Solid-State Chemical Reaction.” JOURNAL OF LUMINESCENCE, vol. 252, 2022, doi:10.1016/j.jlumin.2022.119375.
APA
Mlotswa, D., V., Orante-Barron, V. R., Mothudi, B. M., Mofokeng, S. J., Ngubeni, G. N., Poelman, D., & Noto, L. L. (2022). Thermally stimulated luminescence properties of MgTa2O6 prepared by solid-state chemical reaction. JOURNAL OF LUMINESCENCE, 252. https://doi.org/10.1016/j.jlumin.2022.119375
Chicago author-date
Mlotswa, D., V, V. R. Orante-Barron, B. M. Mothudi, S. J. Mofokeng, G. N. Ngubeni, Dirk Poelman, and L. L. Noto. 2022. “Thermally Stimulated Luminescence Properties of MgTa2O6 Prepared by Solid-State Chemical Reaction.” JOURNAL OF LUMINESCENCE 252. https://doi.org/10.1016/j.jlumin.2022.119375.
Chicago author-date (all authors)
Mlotswa, D., V, V. R. Orante-Barron, B. M. Mothudi, S. J. Mofokeng, G. N. Ngubeni, Dirk Poelman, and L. L. Noto. 2022. “Thermally Stimulated Luminescence Properties of MgTa2O6 Prepared by Solid-State Chemical Reaction.” JOURNAL OF LUMINESCENCE 252. doi:10.1016/j.jlumin.2022.119375.
Vancouver
1.
Mlotswa, D. V, Orante-Barron VR, Mothudi BM, Mofokeng SJ, Ngubeni GN, Poelman D, et al. Thermally stimulated luminescence properties of MgTa2O6 prepared by solid-state chemical reaction. JOURNAL OF LUMINESCENCE. 2022;252.
IEEE
[1]
V. Mlotswa, D. et al., “Thermally stimulated luminescence properties of MgTa2O6 prepared by solid-state chemical reaction,” JOURNAL OF LUMINESCENCE, vol. 252, 2022.
@article{8772864,
  abstract     = {{Persistent luminescent (PLUM) materials have been developed for a variety of applications in road marking, toys decoration, safety and bio-imaging. Such materials are set to answer the need for energy conservation. In this work, Magnesium Tantalate (MgTa2O6) compound was synthesized by a conventional solid-state chemical re-action route at 800 degrees C for 8 h, after ball milling the mixed precursors. The MgTa2O6 compound was confirmed with only minor impurities of Ta2O5, as identified by X-ray diffraction (XRD). The scanning electron microscopy (SEM) images of MgTa2O6 showed a surface morphology with different shapes and sizes, which are bound to each other. The energy band gap of the material was approximated to 4.34 eV using the Kubelka-Munk relation. The photoluminescence (PL) spectrum displayed a broad emission between 360 and 780 nm, when the sample was excited with a 295 nm beam, as observed from the photoluminescence excitation (PLE) spectrum. Upon investigating the thermoluminescence (TL) properties of the compound, the glow curves revealed the presence of at least three prominent electron trapping centres at-108,-258, and-315 degrees C. The competition between electron trapping centres, pre-heating effects, stability of the electron trapping centres and TL fading were examined. In addition, the depth of the electron trapping centres was determined. From the TL analysis, the prominent electron trapping centres were approximated to 0.75 +/- 0.04 eV, 1.28 +/- 0.07 and 1.55 +/- 0.02 eV. Additionally, from the stable electron trapping centres and TL signal fading study, results indicated that MgTa2O6 is a promising material for energy storage applications.}},
  articleno    = {{119375}},
  author       = {{Mlotswa, D., V and Orante-Barron, V. R. and Mothudi, B. M. and Mofokeng, S. J. and Ngubeni, G. N. and Poelman, Dirk and Noto, L. L.}},
  issn         = {{0022-2313}},
  journal      = {{JOURNAL OF LUMINESCENCE}},
  keywords     = {{luminescence,thermoluminescence,Solid-state chemical reaction,Persistent luminescence,Electron trapping centres,PERSISTENT LUMINESCENCE,THERMOLUMINESCENCE,EMISSION,MECHANISMS}},
  language     = {{eng}},
  pages        = {{9}},
  title        = {{Thermally stimulated luminescence properties of MgTa2O6 prepared by solid-state chemical reaction}},
  url          = {{http://doi.org/10.1016/j.jlumin.2022.119375}},
  volume       = {{252}},
  year         = {{2022}},
}
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