Multi-site occupation of Cr3+ toward developing broadband near-infrared phosphors

The near-infrared (NIR) light source has a huge potential for foodstuff analysis, biometric identification, physiological monitoring, and night vision technology with real-time and non-destructive advantages. Demand-led growth impels the exploration of novel NIR phosphors with broadband emission. He...

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Bibliographic Details
Published in:Ceramics international 2021-08, Vol.47 (16), p.23558-23563
Main Authors: Su, Yue, Yuan, Lifang, Liu, Hai, Xiong, Guangting, Wu, Haoyi, Hu, Yihua, Cheng, Xuxin, Jin, Yahong
Format: Article
Language:English
Subjects:
Broadband emission
Cr3
Multi-site occupation
Near-infrared
Night vision
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Summary:The near-infrared (NIR) light source has a huge potential for foodstuff analysis, biometric identification, physiological monitoring, and night vision technology with real-time and non-destructive advantages. Demand-led growth impels the exploration of novel NIR phosphors with broadband emission. Here we report a new kind of blue-light excitable NIR phosphor Mg7Ga2GeO12: xCr3+, in which the multi-site occupation of Cr3+ induces broadband NIR emission in the range of 600–1200 nm with a large full width at half maximum (FWHM) of ~190 nm and a NIR photoluminescence quantum yield (PLQY) of 12.06% at x = 0.02. The FWHM can be effectively adjusted from 101 to 226 nm via multisite occupancy preference of Cr3+ ions. The PL intensity remains ~50% and nearly 100% of the initial level after heated up to 400 K and immersed in hot water (100 °C) for 24 h, respectively, demonstrating good thermal stability and robust chemical stability. The broadband emission originated from multi-site PL centers of Cr3+ is discussed in detail by the temperature-dependent PL behaviors and PL decay lifetime. Finally, a broadband emission NIR-LED is fabricated, based on which a proof-of-concept application for night vision is demonstrated. This work not only provides a strategy for the design and developing of novel broadband NIR phosphors, but also indicates the potential for various advanced spectroscopy applications.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2021.05.073