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引用次数: 0
摘要
高灵敏度光学温度测量在基础研究和实际应用中都引起了广泛关注。本研究采用高温固态法合成了一系列由掺杂 20%Yb3+ 和不同浓度 Er3+(0.5% 为最佳浓度)的 NaGd(PO3)4(NGP)组成的上转换(UC)发光荧光粉。利用 X 射线衍射和里特维尔德细化验证分析了它们的晶体结构和镧系掺杂物的分布。在 980 nm 激光激发下,所获得的荧光粉通过双光子过程显示出特征性的 Er3+ 上转换绿色和红色发射带。基于热耦合态的荧光强度比(FIR)证明了该荧光粉在 200-573 K 宽温度范围内的热感应能力,其热灵敏度相对较高,最大绝对热灵敏度 S a 为 0.53 % K-1 (523 K),最大相对热灵敏度 S r 为 2.60 % K-1。荧光粉 NGP:Yb/Er 还具有很高的重复性,热传感器的重复性达到 97%。这些发现表明,NGP:Yb/Er 有潜力成为光学热感应应用中的理想候选材料。
Upconversion luminescence and thermosensitive properties of NaGd(PO3)4:Yb3+/Er3.
High-sensitivity optical temperature measurement has attracted extensive attention in both fundamental studies and practical applications. In this study, a series of upconversion (UC) luminescence phosphors composed of NaGd(PO3)4 (NGP) doped with 20 at% Yb3+ and various concentrations of Er3+ (0.5 at% as the optimal concentration) was synthesized by high-temperature solid-state method. And their crystal structure and the distribution of lanthanide dopants were analyzed using X-ray diffraction with Rietveld refinement verifies. Under 980 nm laser excitation, the obtained phosphors show the characteristic Er3+ upconversion green and red emission bands through two-photon processes. The fluorescence intensity ratio (FIR) based on the thermal coupled states demonstrates the thermal sensing ability in a wide temperature range of 200-573 K. The thermal sensitivity is relatively high with the maximum absolute thermal sensitivity Sa of 0.53 % K-1 (523 K) and the maximum relative thermal sensitivity Sr of 2.60 % K-1. The phosphor NGP:Yb/Er also exhibits high repeatability as the thermal sensors reach 97 %. These findings postulate the potential of NGP:Yb/Er as a promising candidate in optical thermal sensing applications.
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