Stable zero-thermal quenching cover wide temperature range achieves in cerium doped KY3F10 ultraviolet luminescent single crystal

Li Z. ¹Tian T. ¹Yuan W. ¹Cui Q. ¹Zhang Y. ¹Gong Z. ¹Mao C. ¹Liu W. ¹Xu W. ¹Chu Y. ¹Liu L. ¹Xu J. ¹Yang B.²

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作者信息

1. Institute of Crystal Growth School of Materials Science and Engineering Shanghai Institute of Technology
2. School of Science Shanghai Institute of Technology
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Abstract

? 2022 Elsevier B.V.Ce3+ ions (2 mol%) doped KY3F10 (Ce: KYF) single crystals were successfully grown by the vertical Bridgman method in a vacuum system. Ce3+: KYF single crystal had high crystalline quality and transmittance, and the absorption edge was significantly red shifted compared with undoped KYF. The broad band emission centered at 360 nm (λex = 300 nm) were both observed in them, while a three-fold increased emission intensity was seen when Ce3+ ions were doped. Ce: KYF crystal possessed high UV luminous efficiency due to converting the light of a 265 nm chip to its luminescence effectively. It was a surprise that Ce: KYF crystal exhibited stable zero-thermal quenching property in the UV band which covered a wide temperature range from 298 K to 573 K. The possible mechanism of the luminescent properties and the superior thermal stability of Ce: KYF was discussed. Ce: KYF single crystal will have good application prospect as an excellent UV luminescent material with high thermal stability.

Key words

Ce3+-doped KY3F10 single crystal/Intrinsic defects/Ultraviolet band/Wide temperature range/Zero-thermal quenching

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出版年

2022

Journal of Alloys and Compounds

EISCI

ISSN：0925-8388

被引量4

参考文献量53

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