The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor

The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor

Novel LiLa1−x−y(MoO4)2:xSm3+,yEu3+ (in short: LL1−x−yM:xSm3+,yEu3+) double molybdate red phosphors were synthesized by a solid-state reaction at as low temperature as 610 °C. The optimal doping concentration of Sm3+ in LiLa1−x(MoO4)2:xSm3+ (LL1−xM:xSm3+) phosphor is x = 0.05 and higher concentration...

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Main Authors: Jiaxi Wang, Li Luo, Baoyu Huang, Jingqi He, Wei Zhang, Weiren Zhao, Jianqing Wang
Format: Article
Language:English
Published: MDPI AG 2018-02-01
Series:Materials
Subjects:
molybdate
red phosphor
energy transfer
thermal stability
Online Access:http://www.mdpi.com/1996-1944/11/2/297
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spelling doaj-51713f97343545e397ee1953d2ecc59d2020-11-25T00:37:37ZengMDPI AGMaterials1996-19442018-02-0111229710.3390/ma11020297ma11020297The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red PhosphorJiaxi Wang0Li Luo1Baoyu Huang2Jingqi He3Wei Zhang4Weiren Zhao5Jianqing Wang6School of Physics & Optoelectric Engineering, Guangdong University of Technology, Guangzhou Higher Education Mega Centre, Guangzhou 510006, ChinaSchool of Physics & Optoelectric Engineering, Guangdong University of Technology, Guangzhou Higher Education Mega Centre, Guangzhou 510006, ChinaSchool of Physics & Optoelectric Engineering, Guangdong University of Technology, Guangzhou Higher Education Mega Centre, Guangzhou 510006, ChinaSchool of Physics & Optoelectric Engineering, Guangdong University of Technology, Guangzhou Higher Education Mega Centre, Guangzhou 510006, ChinaSchool of Physics & Optoelectric Engineering, Guangdong University of Technology, Guangzhou Higher Education Mega Centre, Guangzhou 510006, ChinaSchool of Physics & Optoelectric Engineering, Guangdong University of Technology, Guangzhou Higher Education Mega Centre, Guangzhou 510006, ChinaGuangzhou LEDteen Optoelectronics Co., Ltd. 2F A4 Building, No. 11 Kaiyuan Avenue, Science City, Guangzhou Hi-tech Industrial Development Zone, Guangzhou 510663, ChinaNovel LiLa1−x−y(MoO4)2:xSm3+,yEu3+ (in short: LL1−x−yM:xSm3+,yEu3+) double molybdate red phosphors were synthesized by a solid-state reaction at as low temperature as 610 °C. The optimal doping concentration of Sm3+ in LiLa1−x(MoO4)2:xSm3+ (LL1−xM:xSm3+) phosphor is x = 0.05 and higher concentrations lead to emission quenching by the electric dipole—electric dipole mechanism. In the samples co-doped with Eu3+ ions, the absorption spectrum in the near ultraviolet and blue regions became broader and stronger than these of the Sm3+ single-doped samples. The efficient energy transfer from Sm3+ to Eu3+ was found and the energy transfer efficiency was calculated. Under the excitation at 403 nm, the chromaticity coordinates of LL0.95−yM:0.05Sm3+,yEu3+ approach to the NTSC standard values (0.670, 0.330) continuously with increasing Eu3+ doping concentration. The phosphor exhibits high luminous efficiency under near UV or blue light excitation and remarkable thermal stability. At 150 °C, the integrated emission intensity of the Eu3+ remained 85% of the initial intensity at room temperature and the activation energy is calculated to be 0.254 eV. The addition of the LL0.83M:0.05Sm3+,0.12Eu3+ red phosphors can improve the color purity and reduce the correlated color temperature of WLED lamps. Hence, LL1−x−yM:xSm3+,yEu3+ is a promising WLED red phosphor.http://www.mdpi.com/1996-1944/11/2/297molybdatered phosphorenergy transferthermal stability
collection DOAJ
language English
format Article
sources DOAJ
author Jiaxi Wang
Li Luo
Baoyu Huang
Jingqi He
Wei Zhang
Weiren Zhao
Jianqing Wang
spellingShingle Jiaxi Wang
Li Luo
Baoyu Huang
Jingqi He
Wei Zhang
Weiren Zhao
Jianqing Wang
The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor
Materials
molybdate
red phosphor
energy transfer
thermal stability
author_facet Jiaxi Wang
Li Luo
Baoyu Huang
Jingqi He
Wei Zhang
Weiren Zhao
Jianqing Wang
author_sort Jiaxi Wang
title The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor
title_short The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor
title_full The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor
title_fullStr The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor
title_full_unstemmed The Preparation and Optical Properties of Novel LiLa(MoO4)2:Sm3+,Eu3+ Red Phosphor
title_sort preparation and optical properties of novel lila(moo4)2:sm3+,eu3+ red phosphor
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2018-02-01
description Novel LiLa1−x−y(MoO4)2:xSm3+,yEu3+ (in short: LL1−x−yM:xSm3+,yEu3+) double molybdate red phosphors were synthesized by a solid-state reaction at as low temperature as 610 °C. The optimal doping concentration of Sm3+ in LiLa1−x(MoO4)2:xSm3+ (LL1−xM:xSm3+) phosphor is x = 0.05 and higher concentrations lead to emission quenching by the electric dipole—electric dipole mechanism. In the samples co-doped with Eu3+ ions, the absorption spectrum in the near ultraviolet and blue regions became broader and stronger than these of the Sm3+ single-doped samples. The efficient energy transfer from Sm3+ to Eu3+ was found and the energy transfer efficiency was calculated. Under the excitation at 403 nm, the chromaticity coordinates of LL0.95−yM:0.05Sm3+,yEu3+ approach to the NTSC standard values (0.670, 0.330) continuously with increasing Eu3+ doping concentration. The phosphor exhibits high luminous efficiency under near UV or blue light excitation and remarkable thermal stability. At 150 °C, the integrated emission intensity of the Eu3+ remained 85% of the initial intensity at room temperature and the activation energy is calculated to be 0.254 eV. The addition of the LL0.83M:0.05Sm3+,0.12Eu3+ red phosphors can improve the color purity and reduce the correlated color temperature of WLED lamps. Hence, LL1−x−yM:xSm3+,yEu3+ is a promising WLED red phosphor.
topic molybdate
red phosphor
energy transfer
thermal stability
url http://www.mdpi.com/1996-1944/11/2/297
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