试验分别以微米级Y2O3、Eu2O3粉体为原料,碳酸氢铵为沉淀剂,三乙醇胺为络合剂,采用三乙醇胺络合沉淀法制备了化学组成为NC6H12(NH4)Y2(CO3)(NO3)2·nH2O的前驱体.研究了前驱体在不同的煅烧温度下的物相变化,结果表明,前驱体在500℃保温2 h即可直接生成立方相的Eu:Y2O3,在1000℃保温2 h的条件下得到了结晶度高、分散性好、平均粒径为50~60 nm、近球形的纳米Eu:Y2O3荧光粉.
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