Improving the thermal stability and luminescent efficiency of (Ba,Sr)3SiO5:Eu2+ phosphors by structure, bandgap engineering and soft chemistry synthesis method

[Display omitted] •Comprehensively analyzing the thermal quenching properties of (Ba,Sr)3SiO5:Eu2+.•The emission intensity and thermal stability of (Ba,Sr)3SiO5:Eu2+ were improved by structure and bandgap engineering.•The sol-gel synthesized BaSr2SiO5:Eu2+ showed excellent thermal performance, only...

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Published inChemical Engineering Journal Vol. 410; p. 128367
Main Authors Liu, Hongmin, Liang, Hongwei, Zhang, Wenye, Zeng, Qingguang, Wen, Dawei
Format Journal Article
LanguageEnglish
Japanese
Published Elsevier B.V 01.04.2021
Elsevier BV
Subjects
DFT calculation
Orange phosphor
Sol-gel method
Thermal stability
DFT calculation
Sol-gel method
Thermal stability
Orange phosphor
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Abstract [Display omitted] •Comprehensively analyzing the thermal quenching properties of (Ba,Sr)3SiO5:Eu2+.•The emission intensity and thermal stability of (Ba,Sr)3SiO5:Eu2+ were improved by structure and bandgap engineering.•The sol-gel synthesized BaSr2SiO5:Eu2+ showed excellent thermal performance, only 5% loss of intensity at 150 °C.•The as-synthesized phosphor was proved to improve the correlated color index and color rendering index. The quantum yield and thermal stability are significant properties for phosphors, determining the luminescence efficiency of the devices for indoor lighting, displays backlight and near-infrared (IR) sensor applications. It is well known that the large bandgap and Debye temperature (Structure rigidity) values are beneficial to high thermal resistance. Here, the crystal structure, luminescence, thermal quenching property, bandgap and structural rigidity of (Ba,Sr)3SiO5:Eu2+ were studied via Rietveld refinement, temperature-dependent photoluminescence spectra and first-principle calculations. The quantum yield and thermal stability of (Ba,Sr)3SiO5:Eu2+ were increased by ~17% and 14%, respectively, via the combination of structure and bandgap engineering. These properties were further optimized by sol-gel synthesis process, achieving 28% increase of emission intensity compared to the same composition synthesized by a solid-state method and only 5% loss of luminescence intensity at 150 °C. By adding the as-synthesized phosphors, the correlated color temperature and color rendering index of the LED device were lower and higher, respectively, indicating the potential value in practice.
AbstractList [Display omitted] •Comprehensively analyzing the thermal quenching properties of (Ba,Sr)3SiO5:Eu2+.•The emission intensity and thermal stability of (Ba,Sr)3SiO5:Eu2+ were improved by structure and bandgap engineering.•The sol-gel synthesized BaSr2SiO5:Eu2+ showed excellent thermal performance, only 5% loss of intensity at 150 °C.•The as-synthesized phosphor was proved to improve the correlated color index and color rendering index. The quantum yield and thermal stability are significant properties for phosphors, determining the luminescence efficiency of the devices for indoor lighting, displays backlight and near-infrared (IR) sensor applications. It is well known that the large bandgap and Debye temperature (Structure rigidity) values are beneficial to high thermal resistance. Here, the crystal structure, luminescence, thermal quenching property, bandgap and structural rigidity of (Ba,Sr)3SiO5:Eu2+ were studied via Rietveld refinement, temperature-dependent photoluminescence spectra and first-principle calculations. The quantum yield and thermal stability of (Ba,Sr)3SiO5:Eu2+ were increased by ~17% and 14%, respectively, via the combination of structure and bandgap engineering. These properties were further optimized by sol-gel synthesis process, achieving 28% increase of emission intensity compared to the same composition synthesized by a solid-state method and only 5% loss of luminescence intensity at 150 °C. By adding the as-synthesized phosphors, the correlated color temperature and color rendering index of the LED device were lower and higher, respectively, indicating the potential value in practice.
ArticleNumber 128367
Author Liang, Hongwei
Liu, Hongmin
Zhang, Wenye
Wen, Dawei
Zeng, Qingguang
Author_xml – sequence: 1
  givenname: Hongmin
  surname: Liu
  fullname: Liu, Hongmin
  organization: School of Applied Physics and Materials, Yingbindadao Street-99, Wuyi University, Jiangmen, Guangdong 529020, China
– sequence: 2
  givenname: Hongwei
  surname: Liang
  fullname: Liang, Hongwei
  organization: School of Applied Physics and Materials, Yingbindadao Street-99, Wuyi University, Jiangmen, Guangdong 529020, China
– sequence: 3
  givenname: Wenye
  surname: Zhang
  fullname: Zhang, Wenye
  organization: School of Applied Physics and Materials, Yingbindadao Street-99, Wuyi University, Jiangmen, Guangdong 529020, China
– sequence: 4
  givenname: Qingguang
  surname: Zeng
  fullname: Zeng, Qingguang
  organization: School of Applied Physics and Materials, Yingbindadao Street-99, Wuyi University, Jiangmen, Guangdong 529020, China
– sequence: 5
  givenname: Dawei
  orcidid: 0000-0002-0155-8802
  surname: Wen
  fullname: Wen, Dawei
  email: ontaii@163.com
  organization: School of Applied Physics and Materials, Yingbindadao Street-99, Wuyi University, Jiangmen, Guangdong 529020, China
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Snippet [Display omitted] •Comprehensively analyzing the thermal quenching properties of (Ba,Sr)3SiO5:Eu2+.•The emission intensity and thermal stability of...
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SubjectTerms DFT calculation
Orange phosphor
Sol-gel method
Thermal stability
Title Improving the thermal stability and luminescent efficiency of (Ba,Sr)3SiO5:Eu2+ phosphors by structure, bandgap engineering and soft chemistry synthesis method
URI https://dx.doi.org/10.1016/j.cej.2020.128367
https://cir.nii.ac.jp/crid/1873961342364862592
Volume 410
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