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>Relationship of the different Ca sites in the matrix with luminescence properties of orange-red emitting Li0.04Ca0.96-xSiO3:Sm-x phosphors
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Relationship of the different Ca sites in the matrix with luminescence properties of orange-red emitting Li0.04Ca0.96-xSiO3:Sm-x phosphors
Li0.04Ca0.96-xSiO3:Sm-x orange-red emitting phosphors were synthesized using the sol-gel method. X-ray diffraction, Rietveld refinement of XRD patterns, Fourier transform infrared spectroscopy and fluorescence spectrophotometry were used to characterize the crystal structure, sites of cationic Ca and luminescence properties of the prepared phosphors. The relationship of the different Ca sites in the matrix with the luminescence properties was analysed. The results indicate that the prepared phosphors reveal a beta-CaSiO3 phase with a monoclinic crystal structure and space Group P21/a. As the Sm3+ concentration increases, the unit cell volume of phosphors and the Ca-O band lengths of different Ca sites decrease due to substitution of Ca2+ by smaller Sm3+ ions. By excitation at 404 nm, Li0.04Ca0.96-xSiO3:Sm-x phosphors exhibit warm orange-red light, corresponding to the electron transitions from (4)G(5/2) -> H-6(5/2) (567 nm), (4)G(5/2) -> H-6(7/2) (605 nm) and (4)G(5/2) -> H-6(9/2) (651 nm) of Sm3+. The concentration quenching phenomenon appears at Sm3+ concentrations beyond 0.02. The refinement results demonstrate that three cationic Ca sites, named Ca1, Ca2 and Ca3, exist in the beta-CaSiO3 host lattice. The Ca2+ ions at Ca1 and Ca2 sites are coordinated with six oxygen ions, leading to the same coordination number (CN). The Ca2+ ion located at Ca3 site has seven coordination numbers. The Ca1 site possesses a smaller lattice distortion and better symmetry than those of Ca2 and Ca3 sites. However, the Ca3 site exhibits the largest lattice distortion and poor symmetry. The Sm3+ present in symmetric Ca1 sites in the matrix illustrates the strong emission intensity, long luminescence lifetimes and good thermal stability.
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