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作 者:曾贵平[1] 姚李[1] 董强[1] 邓赞红[2] 鲍巍涛[1]
机构地区:[1]合肥学院,安徽合肥230601 [2]中国科学院安徽光学精密机械研究所,安徽合肥230031
出 处:《量子电子学报》2010年第6期655-660,共6页Chinese Journal of Quantum Electronics
摘 要:采用共沉淀法,在不同的烧结气氛下制备了Y_2O_3:Ti^(3+)粉体,测量了它们的激发、发射光谱以及XRD光谱,观测了形貌。在紫外光激发下,微晶Y_2O_3:Ti^(3+)在439 nm附近有较强的发射带,而纳米Y_2O_3:Ti^(3+)在400~500 nm范围内出现了强的发射带。随纳米粉体的晶粒尺寸减小,它的发光明显增强,覆盖了整个可见光区。结果表明Y_2O_2:Ti^(3+)纳米粉体有望成为新一代白光LED或汞灯的光转换荧光粉。Y2O3:Ti^3+ powders were prepared by coprecipitation method at different temperatures in different sintering atmospheres. XRD spectra, excitation and emission spectra of Y2O3:Ti^3+ powders were measured, and their morphologies were observed. Under the excitation of UV light, Y2O3:Ti^3+ microcrystalline has a strong emission band near 439nm, and Y2O3:Ti^3+nanocrystalline has a more stronger emission band in the range of 400 - 500 nm. The fluorescence of Y2O3:Ti^3+ nanopowder becomes strong observably as the grain size reduces, and the fluorescence covers whole visible light region. This indicates that Y2O3:Ti^3+ nanopowder is expected to become a new generation light conversion phosphor for white LED or mercury lamp.
关 键 词:材料 Y2O3:Ti^3+ 纳米粉体 白光LED 荧光粉
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