Concentration- and temperature- dependent luminescence quenching and optical transition of Sr2GdTaO6: Eu3+ phosphor for potential applications in white LEDs
•Novel Sr2GdTaO6: Eu3+ phosphors with double perovskite structure were successfully prepared.•Effective red luminescence emission was observed in Sr2GdTaO6: Eu3+ phosphors.•Effects of the Eu3+ doping concentration on luminescence properties were investigated in detail.•Possible mechanism for the inf...
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| Published in | Results in physics Vol. 56; p. 107238 |
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| Main Authors | , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier B.V
01.01.2024
Elsevier |
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| Abstract | •Novel Sr2GdTaO6: Eu3+ phosphors with double perovskite structure were successfully prepared.•Effective red luminescence emission was observed in Sr2GdTaO6: Eu3+ phosphors.•Effects of the Eu3+ doping concentration on luminescence properties were investigated in detail.•Possible mechanism for the influence of temperature on thermal quenching was discussed.•Optical transitive properties were evaluated using the Judd-Ofelt theory.
A series of Eu3+ doped Sr2GdTaO6 (SGT) phosphors with double perovskite structure were synthesized via a high-temperature solid-state reaction approach. The crystal structure, morphology and luminescence properties were characterized by means of X-ray diffraction, transmission electron microscope, luminescence spectroscopy and fluorescence decay lifetimes, respectively. Under the excitation of 394 nm, intense red emission in the visible region was observed in Eu3+ doped SGT phosphors, and the critical quenching concentration of Eu3+ in SGT phosphors was derived to be 15 mol%. The chromaticity coordinates and color purity of SGT: 15 mol% Eu3+ were calculated to be (0.61, 0.36) an 93.82 %, respectively. Meanwhile, it was also confirmed that the electric quadrupole–quadrupole interaction is responsible for the luminescence concentration quenching of Eu3+. The internal quantum efficiency of SGT: Eu3+ phosphors with different Eu3+ concentrations were calculated. Furthermore, the crossover process was confirmed to be the main mechanism for luminescence thermal quenching based on the temperature-dependent emission spectra and temperature-dependent fluorescence lifetimes. In addition, the Judd-Ofelt parameters, radiative transition rates and branch ratios from the 5D0 emitting states to various lower energy states were evaluated with the aid of the Judd-Ofelt theory, respectively. All results indicate that SGT: Eu3+ samples are a promising red-emitting phosphor. |
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| AbstractList | •Novel Sr2GdTaO6: Eu3+ phosphors with double perovskite structure were successfully prepared.•Effective red luminescence emission was observed in Sr2GdTaO6: Eu3+ phosphors.•Effects of the Eu3+ doping concentration on luminescence properties were investigated in detail.•Possible mechanism for the influence of temperature on thermal quenching was discussed.•Optical transitive properties were evaluated using the Judd-Ofelt theory.
A series of Eu3+ doped Sr2GdTaO6 (SGT) phosphors with double perovskite structure were synthesized via a high-temperature solid-state reaction approach. The crystal structure, morphology and luminescence properties were characterized by means of X-ray diffraction, transmission electron microscope, luminescence spectroscopy and fluorescence decay lifetimes, respectively. Under the excitation of 394 nm, intense red emission in the visible region was observed in Eu3+ doped SGT phosphors, and the critical quenching concentration of Eu3+ in SGT phosphors was derived to be 15 mol%. The chromaticity coordinates and color purity of SGT: 15 mol% Eu3+ were calculated to be (0.61, 0.36) an 93.82 %, respectively. Meanwhile, it was also confirmed that the electric quadrupole–quadrupole interaction is responsible for the luminescence concentration quenching of Eu3+. The internal quantum efficiency of SGT: Eu3+ phosphors with different Eu3+ concentrations were calculated. Furthermore, the crossover process was confirmed to be the main mechanism for luminescence thermal quenching based on the temperature-dependent emission spectra and temperature-dependent fluorescence lifetimes. In addition, the Judd-Ofelt parameters, radiative transition rates and branch ratios from the 5D0 emitting states to various lower energy states were evaluated with the aid of the Judd-Ofelt theory, respectively. All results indicate that SGT: Eu3+ samples are a promising red-emitting phosphor. A series of Eu3+ doped Sr2GdTaO6 (SGT) phosphors with double perovskite structure were synthesized via a high-temperature solid-state reaction approach. The crystal structure, morphology and luminescence properties were characterized by means of X-ray diffraction, transmission electron microscope, luminescence spectroscopy and fluorescence decay lifetimes, respectively. Under the excitation of 394 nm, intense red emission in the visible region was observed in Eu3+ doped SGT phosphors, and the critical quenching concentration of Eu3+ in SGT phosphors was derived to be 15 mol%. The chromaticity coordinates and color purity of SGT: 15 mol% Eu3+ were calculated to be (0.61, 0.36) an 93.82 %, respectively. Meanwhile, it was also confirmed that the electric quadrupole–quadrupole interaction is responsible for the luminescence concentration quenching of Eu3+. The internal quantum efficiency of SGT: Eu3+ phosphors with different Eu3+ concentrations were calculated. Furthermore, the crossover process was confirmed to be the main mechanism for luminescence thermal quenching based on the temperature-dependent emission spectra and temperature-dependent fluorescence lifetimes. In addition, the Judd-Ofelt parameters, radiative transition rates and branch ratios from the 5D0 emitting states to various lower energy states were evaluated with the aid of the Judd-Ofelt theory, respectively. All results indicate that SGT: Eu3+ samples are a promising red-emitting phosphor. |
| ArticleNumber | 107238 |
| Author | Wang, Li Chen, Baojiu Zhang, Yanqiu Zhang, Xizhen Xu, Sai Sha, Xuezhu Chen, Xin Yu, Hongquan Zhang, Jinsu Wang, Yichao Zhang, Yuhang Li, Xiangping Cao, Yongze Gao, Duan |
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| Keywords | Judd-Ofelt analysis Eu3 Sr2GdTaO6 Thermal quenching Concentration quenching |
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| Snippet | •Novel Sr2GdTaO6: Eu3+ phosphors with double perovskite structure were successfully prepared.•Effective red luminescence emission was observed in Sr2GdTaO6:... A series of Eu3+ doped Sr2GdTaO6 (SGT) phosphors with double perovskite structure were synthesized via a high-temperature solid-state reaction approach. The... |
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| SubjectTerms | Concentration quenching Eu3 Judd-Ofelt analysis Sr2GdTaO6 Thermal quenching |
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| Title | Concentration- and temperature- dependent luminescence quenching and optical transition of Sr2GdTaO6: Eu3+ phosphor for potential applications in white LEDs |
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