Eu2+ and Dy3+ codoped (Ca, Sr)7(SiO3)6C12 yellow phosphors were successfully synthesized by self-flux method. The structure, morphology and photoluminescence properties were investigated by X-ray diffraction (XRD), scanning electron microscopy (SEM) and photoluminescence spectra. The as-prepared phosphor showed a broad emission spectrum centered at 550 nm for Eu2+ single-doped phosphor, while located at 548 544 nm for the Eu2+, Dy3+ codoped samples under excitation at 380 nm light. The emission intensity was greatly improved when Dy3+ was doped into the (Ca,Sr)7(SiO3)6C12:Eu2+ system. The composition-optimized sample with 3 mol.% of Dy3+ and constant 10 tool.% of Eu2+ exhibited a 220% PL enhancement compared to the phosphor with 10 tool.% Eu2+ single-doped. Meanwhile, it was found that the quantum efficiency of phosphor namely (Ca,Sr)7(SiO3)6Cl2:3 tool.% Dy3+ 10 mol.% Euz+ could get up to 24.6%. The synthesized yellow-emitting (Ca,Sr)7(SiO3)6C12:Dy3+,Eu2+ is a promising candidate as high-efficiency yellow phosphor for NUV-excited white LEDs.
