Synthesis and spectroscopic investigations of Sr2Y8(SiO4)6O2:Eu2+,Eu3+ phosphor for white LEDs

Abstract

Europium doped silicate Sr2Y8(SiO4)6O2:Eu was successfully obtained by the reaction of nanocrystalline SrO/Y2O3:Eu3+ and colloidal SiO2 at 1000°C in the reducing atmosphere (25%H2/75%N2). It has typical apatite crystal structure with the P63/m space group. The distributions of Eu3+ and Eu2+ between the two crystallographic sites 4f and 6h in the apatite structure were investigated by means of photoluminescence techniques. Results show that both ions are present in 4f and 6h sites at initial Eu3+ concentration of 0.1mol%. With increasing concentration the occupancy of 4f sites by both ions increase faster. Due to significantly shifted luminescence of Eu2+ ions from both sites a tunable broad band emission in the spectral range of 450–650nm can be produced varying the excitation energy. With the excitation in the wavelength range of 380–400nm, the resultant yellow emission has spectral distribution beneficial for high color rendering index (CRI). These phosphors are efficiently excited in the wavelength range of 300–500nm, which can be executed by a near UV- or blue-emitting InGaN chip. While the emission intensity is quite stable up to 100°C, the emission quantum efficiency (QE) of 45% is still below the value of commercial phosphors.