化学学报 ›› 2001, Vol. 59 ›› Issue (5): 736-741. 上一篇    下一篇

研究论文

Eu^3+和Eu^3+在LnBaB~9O~16是的紫外和真空卜外发光性质

杨智;林建华;苏勉曾;陶冶;王渭   

  1. 北京大学稀土材料化学与应用国家重点实验室;云南师范大学化学系;中国科学 院高能物理研究所.北京(100039);中国科学院同步辐射实验室
  • 发布日期:2001-05-15

UVand VUV luminescence of Eu^3+and Eu^3+ in LnBaB~9O~16

Yang Zhi;Lin Jianhua;Su Mianzeng;Tao Ye;Wang Wei   

  1. Inst High Energy Phys, Chinese Acad Sci.Beijing(100039)
  • Published:2001-05-15

研究了Tb^3+和En^3+在LnBaB~9O~16(Lu=La,Gd,Y,Lu)中的卜外和真空紫外光谱性质。X射线粉未衍射数据脂标化结果表明,LnBaB~9O~16(Lu=La,Gd,Y,Lu)系列化合物属于三方晶系。Eu^3+的荧光光谱结果表明,LnBaB~9O~16和GdBaB~9O~16中稀土离子占据非是心对称的格位,Eu^3+在其中的特征发射5D0→7F2电偶极跃迁为主;而在YBaB9O16和LuBaB9O16中稀土离子占据中心对称性的格位,Eu3^+在其中的特征发射以5D0→7F1磁偶极跃迁为主.

关键词: 铕, 铽, 硼酸盐, 紫外发光性质

Ultraviolet (UV) and vacuum ultraviolet (VUV) luminescent prtoperties of En^3 and Tb^3+ in LnBaB~9O~16(Lu=La,Gd,Y,Lu have been systematically studied. LnBaB~9O~16 crystallizes in trigonal system. The emission spectra of Eu^3+ in these matrices show that the local symmetry of rare earth atoms depends on the ionic radii of the Eu^3+ ions. Rare earths from La and Gd are located in noncentrodymmetric sites, and those from Y to Lu occupy centrosymmetric sites. The predominant emission of Eu^3+ is^5D~0 →^7F~2 in LnBaB~9O~16 and GdBaB~9O~16 and^5D~0 -→^7F~1 in YBaB~9O~16 and LnBaB~9O~16. The emission spectra of Tb^3+ also exhibit different behavior, which contain^5D~4→^7F0 and ^5D~4→ ^7F~J(J=3~6) teansitions in LnBaB~9O~16 and GdBaB~9O~16 and only ^5D~4→^7F~J(J=3~6) transitions in LnBaB~9O~16 and GdBaB ~9O~16 and only ^5D~4→^7F~J(J=3~6) transtion in YBaB~9O~16 and LnBaB~9O~16. Tje emission intensity of Tb^3+ is much weaker in LnBaB~9O~16 and GdBaB~9O~16 than in YBaB~9O~16 and LnBa B~9O~16and reverse behavior was observed in Eu^3+ doped system. All these materials show weak sbsorption in VUV range.

Key words: EUROPIUM, TERBIUM, BORATES

中图分类号: