Electronic structure and photoluminescence property of a novel white emission phosphor Na3MgZr(PO4)3:Dy3+ for warm white light emitting diodes Project supported by the Doctoral Research Fund of Liaoning Province, China (Grant No. 201601351), the National Natural Science Foundation of China (Grant No. 51502142), and the General Program of Natural Science Foundation of the Jiangsu Provincial Higher Education Institutions, China (Grant No. 15KJB430021)

To explore suitable single-phase white emission phosphors for warm white light emitting diodes, a series of novel phosphors Na3MgZr(PO4)3:xDy3+ (0 ≤ x ≤ 0.03) is prepared, and their phase purities as well as photoluminescence properties are discussed in depth via x-ray diffraction structure refineme...

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Bibliographic Details
Published in:Chinese physics B 2017-08, Vol.26 (9)
Main Authors: Zhu, Ge, Li, Zhuo-Wei, Wang, Chuang, Zhou, Fa-Guang, Wen, Yan, Xin, Shuang-Yu
Format: Article
Language:English
Subjects:
luminescence
optical materials
optical properties
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Summary:To explore suitable single-phase white emission phosphors for warm white light emitting diodes, a series of novel phosphors Na3MgZr(PO4)3:xDy3+ (0 ≤ x ≤ 0.03) is prepared, and their phase purities as well as photoluminescence properties are discussed in depth via x-ray diffraction structure refinement and photoluminescence spectrum measurement. The electronic structure properties of the Na3MgZr(PO4)3 host are calculated. The results reveal that Na3MgZr(PO4)3 possesses a direct band gap with a band gap value of 4.917 eV. The obtained Na3MgZr(PO4)3:Dy3+ phosphors are all well crystallized in trigonal structure with space group R3¯c, which has strong absorption around 365 nm and can generate warm white light emissions peaking at 487, 576, and 673 nm upon ultraviolet excitation, which are attributed to the transitions from 4F9/2 to 6H15/2, 6H13/2, and 6H11/2 of Dy3+ ions, respectively. The optimal doping content, critical distance, decay time, and Commission International de L'Eclairage (CIE) chromaticity coordinates are investigated in Dy3+ ion-doped Na3MgZr(PO4)3. The thermal quenching analysis shows that Na3MgZr(PO4)3:Dy3+ has a good thermal stability, and the thermal activation energy is calculated. The performances of Na3MgZr(PO4)3:Dy3+ make it a potential single-phase white emission phosphor for warm white light emitting diode.
ISSN:1674-1056
DOI:10.1088/1674-1056/26/9/097801