Narendra G. Sarda scite author profile

(Ba1-(x+y)SrxEuy)2Si6O12N2 oxynitride phosphors were successfully synthesized by the solid-state reaction method at 1200°C under a H2(5%) + N2(95%) atmosphere. The Sr2+ content (x) was varied in the range 0-0.6 and the Eu2+ content varied in the range 0.05-0.25, with the Si/(Ba+Sr+Eu) ratio fixed at 3. Results showed that the emission characteristics of (Ba1-(x+y)SrxEuy)2Si6O12N2 phosphors under UV or blue-light excitation was strongly dependent on the chemical composition. The phosphor (Ba0.95Eu0.05) Si6O12N2 showed an intense green emission peak at 520 nm, whilst the phosphor (Ba0.45Sr0.5Eu0.05)Si6O12N2 had a weaker emission maximum at 548 nm. Ba2+ substitution with Sr2+ decreased the lattice volume of the (Ba1-(x+y)SrxEuy)2Si6O12N2 phosphors and was responsible for the red-shift in the emission peak. Optimization of the Eu2+ concentration at a fixed Sr2+ content of 0.2 identified the phosphor (Ba0.65Sr0.2Eu0.15)2Si6O12N2 as a potential alternative to YAG:Ce yellow phosphors for white LED applications.

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A new synthesis route of perovskite-related Sr2TaO3N oxynitride via Sr2Ta6O10.188

Sarda¹,

Hayashi²,

Takeuchi³

et al. 2016

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Narendra G. Sarda

Structural and optical properties of perovskite-type LaTiO2N synthesized using urea or thiourea as co-nitriding agents

Photoluminescence Properties of (Ba<sub>1-(x+y)</sub>Sr<sub>x</sub>Eu<sub>y</sub>)<sub>2</sub>Si<sub>6</sub>O<sub>12</sub>N<sub>2</sub> Phosphors for White LED Applications

A new synthesis route of perovskite-related Sr2TaO3N oxynitride via Sr2Ta6O10.188

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