A novel orange emissive phosphor SrWO4:Sm3+ for white light-emitting diodes

A novel orange emissive phosphor, Sm3+-doped SrWO4, was synthesized by high temperature solid-state reaction in air atmosphere. The excitation spectra show that the phosphors can be efficiently excited by ultraviolet and near-ultraviolet light, the optimized concentration is 4 mol%. Three emission peaks locate at 562, 596 and 642 nm, corresponding to CIE chromaticity coordinates of (x = 0.54, y = 0.46), which indicates the orange light emitting. The decay curves are well fitted with triple-exponential decay models. The quantum yield of the Sr0.96Sm0.04WO4 phosphor is about 70.65% under excitation of 377 nm. Furthermore, the temperature-dependent luminescence indicates the phosphor exhibits a small thermal-quenching property. So the phosphor is able to be applied to UV-LED chip-based white light-emitting diodes.

Research highlights▶ A novel orange emissive phosphor SrWO4:Sm3+ was firstly reported. ▶ The optics properties of Sm3+-doped SrWO4 phosphor were successfully discussed. ▶ The temperature-dependent luminescence indicates the phosphor exhibits a small thermal-quenching property. ▶ The phosphor is a potential candidate as orange-emitting component for white LED.