宁波大学学报(理工版)
寧波大學學報(理工版)
저파대학학보(리공판)
JOURNAL OF NINGBO UNIVERSITY(NSEE)
2014年
3期
79-82
,共4页
王冬杰%胡元%夏海平%汪俊龙
王鼕傑%鬍元%夏海平%汪俊龍
왕동걸%호원%하해평%왕준룡
LuAG%纳米粉体%发射光谱%Ce3+
LuAG%納米粉體%髮射光譜%Ce3+
LuAG%납미분체%발사광보%Ce3+
LuAG%nano powder%the emission spectrum%Ce3+
采用新型的超声喷雾共沉淀法(UACM)技术,以Lu2O3、Ce(NO3)3、Al(NO3)3?9H2O为原料,制备了不同浓度Ce3+离子掺杂的Lu3Al5O12(LuAG)纳米粉体,并研究了粉体在不同温度下的烧结性能,对所获得的纳米粉体进行了X射线粉末衍射(XRD)、扫描电镜(SEM)和发射光谱等测试与分析.结果显示:应用UACM法制备的LuAG:Ce粉体颗粒具有分散性好、颗粒度均匀,粒径分布范围窄(20~40 nm).在氮气氛下,经1200℃处理后, LuAG:Ce具有最强的508 nm荧光发射带, Ce3+离子在粉体内的最佳掺杂摩尔分数为0.7.
採用新型的超聲噴霧共沉澱法(UACM)技術,以Lu2O3、Ce(NO3)3、Al(NO3)3?9H2O為原料,製備瞭不同濃度Ce3+離子摻雜的Lu3Al5O12(LuAG)納米粉體,併研究瞭粉體在不同溫度下的燒結性能,對所穫得的納米粉體進行瞭X射線粉末衍射(XRD)、掃描電鏡(SEM)和髮射光譜等測試與分析.結果顯示:應用UACM法製備的LuAG:Ce粉體顆粒具有分散性好、顆粒度均勻,粒徑分佈範圍窄(20~40 nm).在氮氣氛下,經1200℃處理後, LuAG:Ce具有最彊的508 nm熒光髮射帶, Ce3+離子在粉體內的最佳摻雜摩爾分數為0.7.
채용신형적초성분무공침정법(UACM)기술,이Lu2O3、Ce(NO3)3、Al(NO3)3?9H2O위원료,제비료불동농도Ce3+리자참잡적Lu3Al5O12(LuAG)납미분체,병연구료분체재불동온도하적소결성능,대소획득적납미분체진행료X사선분말연사(XRD)、소묘전경(SEM)화발사광보등측시여분석.결과현시:응용UACM법제비적LuAG:Ce분체과립구유분산성호、과립도균균,립경분포범위착(20~40 nm).재담기분하,경1200℃처리후, LuAG:Ce구유최강적508 nm형광발사대, Ce3+리자재분체내적최가참잡마이분수위0.7.
Ce3+ doped nano-Lutetium aluminum garnet powders are prepared by ultrasonic atomization and co-precipitation with Lu2O3, Ce(NO3)3 and Al(NO3)3?9H2O as raw materials, and the obtained powders are sintered at various temperature. XRD, SEM and florescence spectrophotometer are employed to characterize the phase composition, particle size and luminescence property of the nano-powder. The results show that the powder particles synthesized via this method are well dispersed, homogeneous and narrowly distributed in size (20-40 nm). It is found from the photoluminescence spectra that Lu3Al5O12:Ce powder calcified at 1 100℃ for 2 h in N2 atmosphere has the strongest intensity at 508 nm, and the best doping concentration of Ce3+ ion for reaching the maximum emission intensity of powder is about 0.7.