Preparation and Luminescence Properties of SrSi₂O₂N₂:Eu²⁺ Phosphors for White LEDs

Abstract

This work has investigated luminescence properties of SrSi₂O₂N₂: Eu²⁺ phosphors synthesized by a new method using Sr₂SiO₄: Eu²⁺ as a precursor. Compared with a conventional solid-state reaction method, this method provides increased crystallinity and luminescence efficiency. X-ray diffraction analysis has indicated that SrSi₂O₂N₂: Eu²⁺ formed as an almost single-phase, but chemical analysis has shown that obtained samples have an oxygen/nitrogen atomic ratio deviated from the stoichiometric composition. It can be expected that luminescence efficiency of this phosphor will be higher for the stoichiometric composition than for non-stoichiometric ones. Under 460 nm excitation, this phosphor shows an emission band peaked at 538-564 nm for varied Eu²⁺ concentration, and shows the maximum at 15 mol% with high integrated photoluminescence intensity, which is about 1.05 times as high as that of the commercial yellow phosphor, (Y,Gd)₃Al₅O₁₂: Ce³⁺ (P46-Y3).