Novel high-efficiency near-infrared phosphor CaZrTaGaO7:Cr3+ and its application in night vision and anti-counterfeiting†

IF 6 2区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Xue Meng, Zhijun Wang, Xiaoxue Huo, Mingxin Zhou, Yu Wang and Panlai Li
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引用次数: 0

Abstract

Near-infrared (NIR) light attracts attention because of its promising applications in night vision, anti-counterfeiting, biosensors, and measuring food composition and freshness. However, new NIR light sources with excellent thermal stability, higher efficiency, and superior photoelectric conversion efficiency are still a significant challenge. In this study, CaZrTaGaO7:0.01Cr3+, which can convert visible light into NIR light, was synthesized using a high-temperature solid-state method, and the crystal structure, morphology, site preference, and luminescence properties were investigated. Under 460 nm blue light excitation, the phosphor produces a broadband NIR emission in the 600–1100 nm region (λmax = 829 nm), with a full width at half maximum of 178 nm, an internal quantum efficiency of 90.7%, and an excellent thermal stability of 84.8% at 423 K. A NIR light emitting diode (LED) was prepared using a 460 nm LED chip and CaZrTaGaO7:0.01Cr3+, and the new compound can produce strong NIR emission (273 mW at 100 mA) with a photoelectric conversion efficiency of 11.8%. Photographed phosphor-converted LEDs (pc-LEDs) with a regular camera and captured pc-LEDs in operation in the dark. The results indicate that this material may provide a new option for high power NIR night vision and other applications.

Abstract Image

Abstract Image

新型高效近红外荧光粉 CaZrTaGaO7:Cr3+ 及其在夜视和防伪中的应用
近红外(NIR)光因其在夜视、防伪、生物传感器以及食品成分和新鲜度测量方面的广阔应用前景而备受关注。然而,具有优异热稳定性、更高能效和更高光电转换效率的新型近红外光源仍是一项重大挑战。本研究采用高温固态法合成了可将可见光转化为近红外光的 CaZrTaGaO7:0.01Cr3+,并研究了其晶体结构、形貌、位点偏好和发光特性。在 460 nm 蓝光激发下,该荧光粉在 600-1100 nm 区域产生宽带近红外发射(λmax = 829 nm),半最大全宽为 178 nm,内部量子效率为 90.7%,在 423 K 下的热稳定性为 84.利用 460 nm LED 芯片和 CaZrTaGaO7:0.01Cr3+ 制备了近红外发光二极管 (LED),这种新化合物可产生强近红外发射(100 mA 时 273 mW),光电转换效率为 11.8%。用普通相机拍摄了荧光粉转换 LED(pc-LED),并捕捉了黑暗中运行的 pc-LED。结果表明,这种材料可为高功率近红外夜视和其他应用提供新的选择。
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来源期刊
Materials Chemistry Frontiers
Materials Chemistry Frontiers Materials Science-Materials Chemistry
CiteScore
12.00
自引率
2.90%
发文量
313
期刊介绍: Materials Chemistry Frontiers focuses on the synthesis and chemistry of exciting new materials, and the development of improved fabrication techniques. Characterisation and fundamental studies that are of broad appeal are also welcome. This is the ideal home for studies of a significant nature that further the development of organic, inorganic, composite and nano-materials.
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