A Blue Sr3(PO4)2<middle dot>12KSrPO4:Eu2+ Phosphor with a High Quantum Efficiency and Excellent Anti-Thermal Quenching

A series of phosphors with the formula R x M(21-x)/2(PO4)7:Eu2+ (R = Li+/Na+/K+; M = Ca2+/Sr2+/Ba2+; x = 0-7) has here been designed and synthesized by using a traditional high-temperature solid-state method. A spectral regulation of the phosphors in different bands was then realized by changing the value of x (i.e., by changing the R/M ratio). For R = K+ and M = Sr2+, the K x Sr(21-x)/2(PO4)7:Eu2+ phosphor realized the spectral regulation from 401 nm to 428 nm with the change of x. For x = 6, the phosphor with the simplest chemical formula was Sr3(PO4)2<middle dot>12KSrPO4:Eu2+ (S3P<middle dot>12SKP:0.05Eu2+), which possessed the highest luminescent intensity and the maximum red shift value. The external quantum efficiency (EQE) and internal quantum efficiency (IQE) of the optimized S3P<middle dot>12SKP:0.05Eu2+ phosphor reached 71.35% and 89.39%, respectively. Remarkably, the phosphor exhibited an excellent antithermal quenching performance with a luminescent intensity that still maintained the initial intensity value at 225 degrees C. A series of results showed that the S3P<middle dot>12SKP:Eu2+ blue phosphor had excellent application potential.