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A novel deep red-emitting phosphor KMgLaTeO6:Mn4+ with high thermal stability and quantum yield for w-LEDs : structure, site occupancy and photoluminescence properties

Kai Li (UGent) , Hongzhou Lian and Rik Van Deun (UGent)
(2018) DALTON TRANSACTIONS. 47(8). p.2501-2505
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Abstract
In this work, a novel deep red-emitting phosphor KMgLaTeO6: Mn4+ potentially used in w-LEDs is reported, which can be efficiently excited with UV or blue light with a high quantum yield of 68.9% upon 365 nm excitation. More importantly, the luminescence thermal stability of this kind of phosphor shows excellent performance.
Keywords
LUMINESCENCE PROPERTIES, DOUBLE-PEROVSKITE, COLOR CONVERTER, ENERGY-TRANSFER, BAND, DIODES, DY

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MLA
Li, Kai, Hongzhou Lian, and Rik Van Deun. “A Novel Deep Red-emitting Phosphor KMgLaTeO6:Mn4+ with High Thermal Stability and Quantum Yield for w-LEDs : Structure, Site Occupancy and Photoluminescence Properties.” DALTON TRANSACTIONS 47.8 (2018): 2501–2505. Print.
APA
Li, K., Lian, H., & Van Deun, R. (2018). A novel deep red-emitting phosphor KMgLaTeO6:Mn4+ with high thermal stability and quantum yield for w-LEDs : structure, site occupancy and photoluminescence properties. DALTON TRANSACTIONS, 47(8), 2501–2505.
Chicago author-date
Li, Kai, Hongzhou Lian, and Rik Van Deun. 2018. “A Novel Deep Red-emitting Phosphor KMgLaTeO6:Mn4+ with High Thermal Stability and Quantum Yield for w-LEDs : Structure, Site Occupancy and Photoluminescence Properties.” Dalton Transactions 47 (8): 2501–2505.
Chicago author-date (all authors)
Li, Kai, Hongzhou Lian, and Rik Van Deun. 2018. “A Novel Deep Red-emitting Phosphor KMgLaTeO6:Mn4+ with High Thermal Stability and Quantum Yield for w-LEDs : Structure, Site Occupancy and Photoluminescence Properties.” Dalton Transactions 47 (8): 2501–2505.
Vancouver
1.
Li K, Lian H, Van Deun R. A novel deep red-emitting phosphor KMgLaTeO6:Mn4+ with high thermal stability and quantum yield for w-LEDs : structure, site occupancy and photoluminescence properties. DALTON TRANSACTIONS. 2018;47(8):2501–5.
IEEE
[1]
K. Li, H. Lian, and R. Van Deun, “A novel deep red-emitting phosphor KMgLaTeO6:Mn4+ with high thermal stability and quantum yield for w-LEDs : structure, site occupancy and photoluminescence properties,” DALTON TRANSACTIONS, vol. 47, no. 8, pp. 2501–2505, 2018.
@article{8551169,
  abstract     = {In this work, a novel deep red-emitting phosphor KMgLaTeO6: Mn4+ potentially used in w-LEDs is reported, which can be efficiently excited with UV or blue light with a high quantum yield of 68.9% upon 365 nm excitation. More importantly, the luminescence thermal stability of this kind of phosphor shows excellent performance.},
  author       = {Li, Kai and Lian, Hongzhou and Van Deun, Rik},
  issn         = {1477-9226},
  journal      = {DALTON TRANSACTIONS},
  keywords     = {LUMINESCENCE PROPERTIES,DOUBLE-PEROVSKITE,COLOR CONVERTER,ENERGY-TRANSFER,BAND,DIODES,DY},
  language     = {eng},
  number       = {8},
  pages        = {2501--2505},
  title        = {A novel deep red-emitting phosphor KMgLaTeO6:Mn4+ with high thermal stability and quantum yield for w-LEDs : structure, site occupancy and photoluminescence properties},
  url          = {http://dx.doi.org/10.1039/c7dt04811d},
  volume       = {47},
  year         = {2018},
}

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