摘要
本研究采用较温和的高温固相法,用碱土金属离子Sr2+和Ba2+取代Y3+离子进行基质取代,合成了一系列(Y0.98-xSrx)3Al5O12:Ce0.06和(Y0.98-xBax)3Al5O12:Ce0.06荧光粉。运用XRD对荧光粉进行了表征,试验结果表明:在一定的掺杂取代范围内,这些体系具有立方石榴石结构。运用荧光光谱仪对荧光粉的发光性能进行了表征,试验结果表明:当用Sr2+或Ba2+取代Y3+离子时,随着Sr2+、Ba2+取代量的增大,发射峰峰值不变,发光强度都是先增大后减小,分别在x=0.10和0.05时达到最大值。这可能是电荷补偿效应的作用,即用2价的Sr2+或Ba2+取代3价的Y3+产生的负电荷补偿Ce4+转化成Ce3+所需要的负电荷。
In this paper,a series of(Y0.98-xSrx)3Al5O12:Ce0.06 or(Y0.98-xBax)3Al5O12:Ce0.06 phosphors were prepared using moderate high temperature solid-state reaction.The products were analyzed by XRD,the results show that all systems have cubic garnet structures when doping concentration is less than 0.10 for Sr2 + ions or 0.05 for Ba2 + ions.The products were characterized by luminescence spectra,the results indicate that the emission spectra peak don't move with the increase of the dopant concentration of Sr2 + or Ba2 +,but the luminescent intensity increases with increasing Sr2 + or Ba2 + concentration and reaches maximum till x = 0.10(for Sr2 +) or x = 0.05(for Ba2 +) and then decreases.This may attribute to the effect of charge compensation in the preparation of those phosphors.
出处
《化学工业与工程》
CAS
2011年第1期13-16,共4页
Chemical Industry and Engineering