中文摘要：

采用水热法,合成了YPO 4：xDy^3＋,0.06Eu^3＋系列荧光粉。通过X射线衍射（XRD）、扫描电子显微镜（SEM）、电子散射能谱（EDS）、光致发光（PL）谱和长余辉光谱,分别对样品的物相、结构和PL进行了表征。XRD检测表明,合成的样品属四方晶系;荧光光谱测试表明,在234nm紫外光激发下,YPO4：xDy^3＋,0.06Eu^3＋的发射光谱呈现Eu^3＋的5 D7 0→7 F1（592nm,橙光）和5 D0→F2（618nm,红光）的发光峰;而在354nm的激发波长下,YPO^3＋4 4：0.06Dy,0.06Eu^3＋的发射光谱呈现Dy^3＋的F9/2→6 H615/2（486nm、蓝光）和4 F9/2→H13/2（575nm、黄光）的发光峰,以及Eu^3＋的5 D0→7 F1（592nm、橙光）和5 D0→7 F2（619nm、红光）的发光峰。对荧光衰减谱的双参数拟合证实了Dy^3＋→Eu^3＋能量传递的存在。色坐标图显示,在234nm紫外光激发下,YPO4：0.05Dy^3＋,0.06Eu^3＋是很好的近紫外光激发下的白色荧光粉。

英文摘要：

The YPO4：xDy^3＋,0.06Eu^3＋phosphors were synthesized by hydrothermal method.The prepared products were studied by X-ray powder diffraction（XRD）,scanning electron microscopy（SEM）,energy dispersive spectrometer（EDS）,photoluminescence（PL）spectroscopy and long-lasting phosphorescence.The results by XRD indicate that YPO4：0.05Dy^3＋,0.06Eu^3＋belongs to a tetragonal crystal system.Photoelectron spectroscopy measurement from YPO4：0.05Dy^3＋,0.06Eu^3＋reveals the binding energy of the elements onto the product surfaces.When excited by 234 nm,the characteristic emission peaks of Eu^3＋due to the transitions of 5 D0→7 F1 at 592nm and 5 D0→7 F2 at 618nm were observed in the emission spectra of YPO4：xDy^3＋,0.06Eu^3＋.The emission spectra of YPO4：0.06Dy^3＋,0.06Eu^3＋excited by 354 nm are composed of blue（4 F9/2→6 H15/2,486nm）and yellow（4 F9/2→6 H13/2,575nm）emission peaks of Dy^3＋,orange（5 D0→7 F1,592nm）and red（5 D0→7 F2,619nm）emission peaks of Eu^3＋,and white light emission can be observed.The energy transfer is confirmed to occur between Dy^3＋and Eu^3＋when the decay spectrum of Dy^3＋is fitted by a double-exponential function.From Commission Internationale de L′Eclairage（CIE）chromaticity diagram,it is noted that white light can be achieved in the emission spectra of YPO4：0.05Dy^3＋,0.06Eu^3＋phosphor at 234 nm excitation.