Effect of aluminum co-doping on the formation of Yb2+ in Ytterbium-doped high silica glass

Yb3+ singly doped and Yb3+/Al3+ co-doped high silica glass samples are prepared,and their luminescent properties are investigated.Al3+ is considered as a beneficial activator for Yb3+-doped glass.However,the experimental result shows that the addition of Al3+ results in the transformation from Yb3+ to Yb2+ and the improvement in the photon luminescence of Yb2+.These characteristics indicate the role of Al3+ in Yb3+-doped glass.     

Eu掺杂的高Gd玻璃荧光及闪烁发光性能研究

分别在空气和还原气氛下,采用高温熔融法制备了Eu 掺杂(1 wt%) 的15SiO₂-25B₂O₃-30Al₂O₃-30Gd₂O₃ 氧化物玻璃,对二者的光致发光和闪烁发光性能进行测试. 结果显示：还原气氛下制得的玻璃在395 nm 紫光和X 射线激发下,均可以得到450–550 nm 的Eu²⁺ 蓝绿发光和615 nm 的Eu³⁺ 红光;然而在不同的激发光源下,Eu²⁺ 和Eu³⁺发光强度比存在明显不同,395 nm 紫光激发下,Eu³⁺ 发光强度仅为Eu²⁺ 的0.02 倍,X 射线激发下,Eu³⁺ 发光强度变为Eu²⁺ 强度的1.37 倍. 通过声子边带谱分析,还原后玻璃中Si 形成体附近的Eu³⁺ 全部被还原为Eu²⁺,B 和Al形成体周围的Eu³⁺ 部分被还原为Eu²⁺. 进一步分析闪烁发光的机理表明：Gd 的敏化剂作用以及B 和Al 形成体周围Eu²⁺→Eu³⁺ 的能量传递都增强了还原玻璃中Eu³⁺ 的闪烁发光性能. 关键词： 高Gd玻璃 2+')" href="#">Eu²⁺ 闪烁发光 声子边带谱     

铈铕共掺高钆氧化物玻璃的发光性能及能量传递效应

在还原气氛下, 采用高温熔融法制备了Eu²⁺/Ce³⁺共掺的高钆氧化物玻璃. 荧光性能测试显示, Ce³⁺能够有效地敏化Eu²⁺的发光, 使Eu²⁺的发光强度增强了2.3倍; 测试对比了Ce³⁺ 发光的荧光寿命随Eu²⁺的掺入前后的变化情况, 计算得出Ce³⁺→Eu²⁺ 的能量传递效率可达61.5%, 并进一步探讨了其能量传递机理. 研究表明: 在高钆氧化物玻璃中, 采用Eu²⁺ 和Ce³⁺ 共掺的方法可有效地增强Eu²⁺ 的发光性能和闪烁性能. 关键词： 发光玻璃 能量传递 荧光寿命     

Direct fabrication of a microfluidic chip for electrophoresis analysis by water-assisted femtosecond laser writing in porous glass

We report the direct fabrication of a microfluidic chip composed of two high-aspect ratio microfluidic channels with lengths of 3.5 cm and 8 mm in a glass substrate by femtosecond laser micromachining. The fabrication mainly consists of two steps: 1) writing microchannels and microchambers in a porous glass by scanning a tightly focused laser beam; 2) high-temperature annealing of the glass sample to collapse all the nanopores in the glass. Migration of derivatized amino acids is observed in the microfluidic channel by applying electric voltage across the long-migration microchannel.