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利用水热法合成了粉末发光材NaYF4∶Tb3+,Yb3+。分别用X射线衍射(XRD),光致发光谱(PL)和激发谱(PLE)测试了合成材料的物相结构和发光性质。研究结果表明:合成的NaYF4∶Tb3+,Yb3+材料为六方相的晶体,无立方相的。改变Tb3+和Yb3+的掺杂浓度后晶格结构没有变化,说明离子Tb3+和Yb3+取代的是Y3+离子的晶格位置。在355nm脉冲激光激发下,检测到了Tb3+的5 D3→7 FJ(J=5-0)和5 D4→7 FJ(J=6,5,4,3)可见波段特征发射光和Yb3+950~1 050nm(2 F5/2→2 F7/2)的近红外发光,研究了可见和近红外的发射强度随Yb3+掺杂浓度的变化,表明Tb3+和Yb3+之间存在能量传递,其可能的能量传递方式是共合作能量传递过程。当Tb3+和Yb3+的掺杂摩尔浓度分别是1mol%和6mol%时具有最强的近红外发射。 相似文献
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Quantum cutting downconversion by cooperative energy transfer from Bi3+ to Yb3+ in Y2O3 phosphor 下载免费PDF全文
Bi~(3+) and Yb~(3+) codoped cubic Y2O3 phosphors are prepared by pechini sol-gel method.Strong near-infrared (NIR) emission around 980 nm from Yb~(3+)(2F5/2 → 2F7/2) is observed under ultraviolet light excitation.A broad excitation band ranging from 320 to 360 nm,owing to the 6s 2 →6s6p transition of Bi~(3+) ions,is recorded when the Yb~(3+) emission is monitored,which suggests a very efficient energy transfer from Bi~(3+) ions to Yb~(3+) ions.The Yb~(3+) concentration dependences of both the Bi~(3+) and the Yb~(3+) emissions are investigated.The decay curve of Bi ~(3+) emission under the excitation of 355 nm pulse laser is used to explore the Bi~(3+) →Yb~(3+) energy transfer process.Cooperative energy transfer (CET) is discussed as a possible mechanism for the near-infrared emission. 相似文献
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