Abstract

Targeted control of the luminescent properties of phosphors for white-light-emitting diode (WLED) applications, particularly spectral position and thermal stability, is crucial. In this study, a newly developed Eu2+-doped sialon S-phase BaAl1+ySi5-yO2-y/2N7 with intrinsic O vacancy (Vo) defects was synthesised using a special raw material ratio with an O deficiency. A series of structure–performance characterisations and density functional theory (DFT) calculations were performed. It was found that the spectral position and thermal stability of the samples could be realised by defect regulation using two approaches: regulation of the Eu2+ content and Al/Si ratio. Consequently, the emitting colour of the samples could be adjusted from green to yellow, leading to a lower colour temperature and higher colour rendering in the assembled WLED. The abnormal thermal quenching effect can also be suppressed with less variation in the emission intensity and colour purity at high temperatures. The defect regulation process investigated in this study will hopefully offer novel ideas for improving the luminescence properties of phosphors for extensive WLED applications.

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