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Structure and luminescence of (Ca,Sr)2SiS4: Eu2+ phosphors

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Abstract
Sr(2)SiS(4) : Eu(2+), Ca(2)SiS(4) : Eu(2+) and the solid solution of both, europium-doped (Ca,Sr)(2)SiS(4), were investigated as UV-VIS excitable green to red powder phosphors. Sr(2)SiS(4) : Eu(2+) shows two emission bands, peaking at 480 and 550 nm. By changing the ratio between Ca(2+) and Sr(2+), the photoluminescent emission spectrum can be tuned. Using x-ray diffraction, the phase composition and lattice parameters of the thiosilicate compounds were determined. The material forms a single, monoclinic Sr(2)SiS(4)-like phase up to 40% substitution of Sr(2+) by Ca(2+). From 50% to 90% of substitution by Ca(2+), phase separation was observed, leading to more complex emission spectra. These spectra were studied in detail using photoluminescence spectroscopy, cathodoluminescence microscopy and temperature dependent optical measurements. The thermal quenching temperature decreases from 470 K in Ca(2)SiS(4) : Eu(2+) to 380 K in Sr(2)SiS(4) : Eu(2+) upon increasing substitution of Ca(2+) by Sr(2+). The possibilities of these materials as wavelength converters for white light emitting diodes were evaluated.
Keywords
EARTH, THIOSILICATE PHOSPHORS, CATHODOLUMINESCENCE, POWDER

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Citation

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Chicago
Parmentier, Anthony, Philippe Smet, Frank Bertram, Jürgen Christen, and Dirk Poelman. 2010. “Structure and Luminescence of (Ca,Sr)2SiS4: Eu2+ Phosphors.” Journal of Physics D-applied Physics 43 (8).
APA
Parmentier, Anthony, Smet, P., Bertram, F., Christen, J., & Poelman, D. (2010). Structure and luminescence of (Ca,Sr)2SiS4: Eu2+ phosphors. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 43(8).
Vancouver
1.
Parmentier A, Smet P, Bertram F, Christen J, Poelman D. Structure and luminescence of (Ca,Sr)2SiS4: Eu2+ phosphors. JOURNAL OF PHYSICS D-APPLIED PHYSICS. 2010;43(8).
MLA
Parmentier, Anthony, Philippe Smet, Frank Bertram, et al. “Structure and Luminescence of (Ca,Sr)2SiS4: Eu2+ Phosphors.” JOURNAL OF PHYSICS D-APPLIED PHYSICS 43.8 (2010): n. pag. Print.
@article{1863310,
  abstract     = {Sr(2)SiS(4) : Eu(2+), Ca(2)SiS(4) : Eu(2+) and the solid solution of both, europium-doped (Ca,Sr)(2)SiS(4), were investigated as UV-VIS excitable green to red powder phosphors. Sr(2)SiS(4) : Eu(2+) shows two emission bands, peaking at 480 and 550 nm. By changing the ratio between Ca(2+) and Sr(2+), the photoluminescent emission spectrum can be tuned. Using x-ray diffraction, the phase composition and lattice parameters of the thiosilicate compounds were determined. The material forms a single, monoclinic Sr(2)SiS(4)-like phase up to 40% substitution of Sr(2+) by Ca(2+). From 50% to 90% of substitution by Ca(2+), phase separation was observed, leading to more complex emission spectra. These spectra were studied in detail using photoluminescence spectroscopy, cathodoluminescence microscopy and temperature dependent optical measurements. The thermal quenching temperature decreases from 470 K in Ca(2)SiS(4) : Eu(2+) to 380 K in Sr(2)SiS(4) : Eu(2+) upon increasing substitution of Ca(2+) by Sr(2+). The possibilities of these materials as wavelength converters for white light emitting diodes were evaluated.},
  articleno    = {085401},
  author       = {Parmentier, Anthony and Smet, Philippe and Bertram, Frank and Christen, Jürgen and Poelman, Dirk},
  issn         = {0022-3727},
  journal      = {JOURNAL OF PHYSICS D-APPLIED PHYSICS},
  keywords     = {EARTH,THIOSILICATE PHOSPHORS,CATHODOLUMINESCENCE,POWDER},
  language     = {eng},
  number       = {8},
  pages        = {7},
  title        = {Structure and luminescence of (Ca,Sr)2SiS4: Eu2+ phosphors},
  url          = {http://dx.doi.org/10.1088/0022-3727/43/8/085401},
  volume       = {43},
  year         = {2010},
}

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