针对目前PDP用商品绿粉余辉时间较长,以及合成稀土硼酸盐与稀土磷酸盐工序长、能耗高等缺点,本研究以自制的磷酸硼(BPO4)和稀土氧化物为原料,采用一步烧成法合成了结晶良好的Ce3+、Tb3+激活的Ln(BO3,PO4)(Ln=La,Y,Gd)绿色荧光粉,并对其在147 nm激发下的光谱性质进行了研究.结果表明:Ln(BO3,PO4):Ce3+、Tb3+(Ln=Y,La,Gd)激发光谱是由来自BO33-和PO43-基质敏化带的120~175nm和来自Tb3+离子的4f→5d跃迁的多宽带的175~300 nm组成;改变基质稀土离子,发射光谱中的荧光分支比和色坐标也随之改变,其中以Gd(BOa,PO4):Ce3+、Tb3+荧光粉的荧光分支比为最高;拟合Gd(BO3,PO4):Ce3+、Tb3+荧光粉的衰减曲线后,得出其荧光寿命为2.92 ms,10%的余辉为6.7 ms,优于Zn2SiO4:Mn2+商品粉,能够满足PDP器件的要求.
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