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1����、中文摘要白光發(fā)光二極管(WLED)具有節(jié)能、壽命長(zhǎng)���、體積小���、無(wú)污染等優(yōu)點(diǎn)����,被公認(rèn)是21世紀(jì)最有價(jià)值的新光源�,有望成為第四代照明光源。當(dāng)前發(fā)展WLED的主流是組合藍(lán)光LED與釔鋁石榴石熒光粉(YAG:Ce3+)�����。性能優(yōu)異的熒光粉可以有效提高WLED發(fā)光效率�����。高溫固相法����、濕化學(xué)法及燃燒合成法等都可用來(lái)合成YAG:Ce”熒光粉。目前商品熒光粉多采用高溫固相法生產(chǎn)�,該法合成溫度高、反應(yīng)時(shí)間長(zhǎng)���、設(shè)備損耗大�����、產(chǎn)物團(tuán)聚嚴(yán)重需經(jīng)過(guò)研磨后才能使用��,國(guó)內(nèi)外都在研究改進(jìn)固相法生產(chǎn)工藝或開(kāi)發(fā)新制備工藝����。通過(guò)分析對(duì)比現(xiàn)有的合成方法,認(rèn)為濕化學(xué)法中的共沉淀法最有希望替代高溫固相反應(yīng)法
2�、進(jìn)行工業(yè)化生產(chǎn)���,本文對(duì)這種方法進(jìn)行了深入研究�����,并開(kāi)拓了微乳液法制備納米級(jí)球形YAG:Ce3十熒光粉新方法����。深入系統(tǒng)研究了共沉淀法制備YAG:Ce3+熒光粉過(guò)程中�,不同的沉淀劑及不同工藝條件對(duì)工藝過(guò)程及發(fā)光性能的影響,實(shí)驗(yàn)證實(shí)較為理想的沉淀劑是混合沉淀劑(氨水+碳酸氫銨)���,熱處理過(guò)程采用(H2+N2)還原氣氛是最適合的�����,前驅(qū)體粉末在900oC可以直接由無(wú)定型相轉(zhuǎn)變?yōu)閅AG晶相��。采用以上方法制備的熒光粉發(fā)光亮度好�,可與高效藍(lán)光LED匹配,制成白光LED�����。進(jìn)一步對(duì)封裝后的白光LED的顯色指數(shù)�、色溫、光衰等性能進(jìn)行研究后可以完全取代固相法進(jìn)行工業(yè)化生產(chǎn)�。測(cè)定油/水
3、/表面活性劑((環(huán)己烷+正己烷)/(釔+鈰+鋁)鹽溶液(或氨水)/(TritonX.100+正己醇))形成微乳液的三元相圖�,首次采用微乳液法,在900oC低溫下����,制備出粉體粒徑均勻、分散性好�、純相并晶形完整的納米級(jí)球形YAG:Ce3+熒光粉,平均粒徑50nlrl��。該方法是一種很有發(fā)展前景的新方法����,值得進(jìn)一步深入研究和完善����。關(guān)鍵詞:YAG:Ce3+熒光粉����;濕化學(xué)法;激發(fā)光譜發(fā)射光譜AbstractWhitelight—emittingdiode(WLED)withlotsofexcellentproperties�����,suchasenergysaving���,lon
4、glastinglife����,smallsize,non-pollution���,istobeconsideredasthemostvaluablelightingsourceandwouldbecomethefourth-generationlightingsource.ThecurrentmainstreamofthefabricationforⅥLEDiScombinationofablueLEDandyellowemittingY3A15012:Ce(YAG:Ce3+).PhosphorswithexcellentperformanceCanimprove
5��、theluminescentefficiencyofWLEDeffectively.YAG:Ce3+phosphorcanbepreparedbysolidreaction���,wetchemicalandcombustionsynthesismethods.Currently,themostofthecommercialphosphorsarepreparedbysolidreactionmethod���,whichneedhigherreactiontemperature,time—consuming����,equipmentwiredseverely,andpow
6、dersagglomeratedSOseverelythatcouldbeusedonlyafterbeenballmilled.Lotsofthescientificworkersaredevotedtoimprovethetechnologyofsolidreactionmethodordevelopnewfabricationprocessathomeandabroad.Aftercomparingandanalyzingtheexistingsynthesismethods��,it’SconsideredthatCO-precipitationmet
7��、hodismostpossibletobeusedinindustrytoreplacethesolidreactionmethod.Inthispaper,thismethodhasbeenthoroughlystudiedandanewpreparation‘method-microemulsionmethodhasbeeninvented.Ithasbeenintensivilystudiedaboutprecipitationmethodthattheinfluencesontheprocessingandphotoluminescenceprop
8�、ertiesthatexertedbydifferentpreci
