1. Ce-doped LuSiO luminescent fibers derived from electrospinning: facile preparation and flexible fiber molding.
- Author
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Lu, Qi, Liu, Qian, Zhuang, Jiandong, Liu, Guanghui, and Wei, Qinhua
- Subjects
LUTETIUM compound synthesis ,INORGANIC fibers ,LUMINESCENCE ,ELECTROSPINNING ,SILICATES ,SOL-gel processes ,CESIUM ,SCINTILLATORS - Abstract
One-dimensional LuSiO:Ce (LPS:Ce) luminescent fibers were prepared by the sol-gel process combined with electrospinning with polyvinyl butyral as polymer in this study. X-ray diffraction, scanning electron microscopy, transmission electron microscopy, high-resolution transmission electron microscopy, thermogravimetric and differential scanning calorimetry, Fourier transform infrared spectroscopy, photoluminescence, and kinetic decays were used to characterize the resulting samples. After calcinated at 1200 °C, pure crystalline phase of LuSiO was obtained with well maintenance of the fiber morphology. The excitation and emission curves of LPS:Ce samples are influenced by cerium-doping concentrations. LPS:0.5%Ce fibers show the most intense emission among the samples. A fast decay time of tens of nanosecond was also observed in LPS:Ce fibers. Furthermore, LPS:0.5%Ce powders and Y co-doped LPS:0.5%Ce fibers were also prepared in a similar way for comparison. As a result, LPS:0.5%Ce fibers present a much stronger emission and higher quantum efficiency than that of LPS:0.5%Ce powders, and a close efficiency compared with YLuSiO:0.5%Ce fibers. In addition, a facile and efficient fiber molding process can be realized to assemble one-dimensional LPS:Ce fibers into three-dimensional (3D) fibers structures with different shapes like bracelet and spool. Such 3D fiber structures are dense enough and well-shaped even if after high temperature calcination. The high performance LPS:Ce fibers and LPS:Ce 3D fibers may have great potential applications for luminescent clad sensors, optoelectronic devices, or scintillating detectors [ABSTRACT FROM AUTHOR]
- Published
- 2013
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