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Journal of Inorganic Materials, Volume. 36, Issue 8, 807(2021)

Phosphor Ceramics for High-power Solid-state Lighting

Xinglin PENG1...2, Shuxing LI3,*, Zehua LIU4, Xiumin YAO1,2, Rongjun XIE3, Zhengren HUANG1,2,4, and Xuejian LIU12,* |Show fewer author(s)
Author Affiliations
  • 11. Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China
  • 22. College of Materials Science and Opto-Electronic Technology, University of Chinese Academy of Sciences, Beijing 100049, China
  • 33. College of Materials, Xiamen University, Xiamen 361005, China
  • 44. Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo 315201, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (8)
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    References (71)
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    Figures & Tables(8)
    Schematic of light conversion and propagation in monolithic (a) and composite (b) ceramics[18]
    1. Schematic of light conversion and propagation in monolithic (a) and composite (b) ceramics[18]

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    Al2O3-YAG:Ce composite phosphor ceramics[11]
    2. Al2O3-YAG:Ce composite phosphor ceramics[11]

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    YMASG:Ce phosphor ceramics[44]
    3. YMASG:Ce phosphor ceramics[44]

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    PL and PLE spectra of YAG:Ce3+/Pr3+/Cr3+phosphor ceramics[29]
    4. PL and PLE spectra of YAG:Ce3+/Pr3+/Cr3+phosphor ceramics[29]

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    CaAlSiN3:Eu2+ phosphor ceramics[6, 58]
    5. CaAlSiN3:Eu2+ phosphor ceramics[6, 58]

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    Light-transmitting area and refractive index of common transparent ceramics[17]
    6. Light-transmitting area and refractive index of common transparent ceramics[17]

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    • Table 1. Doping ions and ionic radii of garnet phosphor ceramics at different lattice positions

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      Table 1. Doping ions and ionic radii of garnet phosphor ceramics at different lattice positions

      Doped ionsIon radius/nmOccupied latticeRef.
      Y3+0.1019A[38]
      Gd3+0.1053A[26]
      Tb3+0.104A[45]
      Lu3+0.0977A[46]
      Mg2+0.089A[27]
      Sc3+0.087A[43]
      Al3+0.0535B[38]
      Sc3+0.0745B[43]
      Mg2+0.072B[44]
      Ga3+0.062B[26]
      Al3+0.039C[38]
      Si4+0.026C[44]

    • Table 2. Summary of three methods for improving CRI and reducing CCT of garnet type phosphor ceramics

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      Table 2. Summary of three methods for improving CRI and reducing CCT of garnet type phosphor ceramics

      MethodsCompositionEmission peak position/nmCCT/KCRIRef.
      Adjust matrix chemical composition GdYAG:Ce525-5542968-429964.8[40]
      GdYAG:Ce528-5503688-478267.1[51]
      Al2O3-GdYAG:Ce 550*501071.4[52]
      MgAl2O4-GdYAG:Ce 550*454370[18]
      TbAG:Ce556-5644000-4900-[45]
      Al2O3-TbAG:Ce 555358063[53]
      TGAG:Ce550-570368174.7[25]
      GAGG:Ce568-574300078.9[26]
      GAGG:Ce570280058.7[47]
      YMASG:Ce537-577438481[27]
      YMASG:Ce533-5982018-4516-[44]
      Al2O3-YMASG:Ce 552-610486082.5[54]
      Adjust the luminescencecenter YAG:Ce3+/Pr3+535, 564, 609, 637-66.9[30]
      YAG:Ce3+/Cr3+534, 677, 688, etc.-72[31]
      YAG:Ce3+/Cr3+530, 690, 7054329-[50]
      YAG:Ce3+/Pr3+/Cr3+530, 609, 689, etc.-78[29]
      YAG:Ce3+/Mn2+520-5903870-519682.5[28]
      YAG:Ce3+/Dy3+496, 582, etc.5609-[55]
      LuAG:Dy3+482, 583, 675,etc.3485-3619-[56]
      Composite red fluorescent material LuAG:Ce/(Sr,Ca)AlSiN3:Eu 515, 640445094[33]
      LuAG:Ce/Eu-doped nitride565-587580089.4[48]
      YAG:Ce/Sr2Si5N8:Eu 610*395282[35]
      Al2O3-YAG:Ce/Red QD 552, 6343161-603580[49]
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    Xinglin PENG, Shuxing LI, Zehua LIU, Xiumin YAO, Rongjun XIE, Zhengren HUANG, Xuejian LIU. Phosphor Ceramics for High-power Solid-state Lighting[J]. Journal of Inorganic Materials, 2021, 36(8): 807

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    Paper Information

    Category: REVIEW

    Received: Nov. 12, 2020

    Accepted: --

    Published Online: Dec. 8, 2021

    The Author Email: LI Shuxing (lishuxing@xmu.edu.cn), LIU Xuejian (xjliu@mail.sic.ac.cn)

    DOI:10.15541/jim20200652

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology