Of the prepared phosphors, Sr1.88Al2SiO7:0.12Eu3+ is the optimal composition for obtaining strong and pure red light. In spite of the low Eu3+ concentration, the red emission intensity and red color purity of Sr1.88Al2SiO7:0.12Eu3+ are much stronger and higher than those of the Ca1.82Al2SiO7:0.18Eu3+. In addition, the Eu3+ concentration of the Sr2−xAl2SiO7:圎u3+ (x = 0.12) showing the highest red emission intensity is much lower than that of the Ca2−xAl2SiO7:圎u3+ (x = 0.18). The calcium aluminosilicate Ca1.82Al2SiO7:0.18Eu3+ is 377% higher in red emission intensity than the Ca1.97Al2SiO7:0.03Eu3+, whereas the strontium aluminosilicate Sr1.88Al2SiO7:0.12Eu3+ is 343% higher in red emission intensity than the Sr1.97Al2SiO7:0.03Eu3+. The host composition and Eu3+ concentration of the two series phosphors substantially affect its emission characteristics. T1 - Effect of host composition and Eu3+ concentration on the photoluminescence of aluminosilicate (Ca,Sr)2Al2SiO7:Eu3+ phosphors Strontium aluminosilicate Sr2−xAl2SiO7:圎u3+ has distinct advantages including strong emission intensity, high color purity, and cost effectiveness.", ![]() Strontium aluminosilicate Sr 2−xAl 2SiO 7:圎u 3+ has distinct advantages including strong emission intensity, high color purity, and cost effectiveness.Ībstract = "Ca2−xAl2SiO7:圎u3+ (0.03 ≤ x ≤ 0.21) and Sr2−xAl2SiO7:圎u3+ (0.03 ≤ x ≤ 0.15) phosphors are effectively excited by near-UV light (396 nm). Of the prepared phosphors, Sr 1.88Al 2SiO 7:0.12Eu 3+ is the optimal composition for obtaining strong and pure red light. In spite of the low Eu 3+ concentration, the red emission intensity and red color purity of Sr 1.88Al 2SiO 7:0.12Eu 3+ are much stronger and higher than those of the Ca 1.82Al 2SiO 7:0.18Eu 3+. In addition, the Eu 3+ concentration of the Sr 2−xAl 2SiO 7:圎u 3+ (x = 0.12) showing the highest red emission intensity is much lower than that of the Ca 2−xAl 2SiO 7:圎u 3+ (x = 0.18). ![]() The calcium aluminosilicate Ca 1.82Al 2SiO 7:0.18Eu 3+ is 377% higher in red emission intensity than the Ca 1.97Al 2SiO 7:0.03Eu 3+, whereas the strontium aluminosilicate Sr 1.88Al 2SiO 7:0.12Eu 3+ is 343% higher in red emission intensity than the Sr 1.97Al 2SiO 7:0.03Eu 3+. The host composition and Eu 3+ concentration of the two series phosphors substantially affect its emission characteristics.
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