功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
13期
1692-1695
,共4页
杨志平%宋延春%韩月%赵青%潘飞
楊誌平%宋延春%韓月%趙青%潘飛
양지평%송연춘%한월%조청%반비
白光LED%KNaCa2(PO4)2%荧光粉%发光%色坐标
白光LED%KNaCa2(PO4)2%熒光粉%髮光%色坐標
백광LED%KNaCa2(PO4)2%형광분%발광%색좌표
white LED%KNaCa2 (PO4)2%phosphor%luminescence%color coordinate
采用高温固相法制备了KNaCa2(PO4)2:Dy3+发光材料并对其发光特性进行了研究。光谱显示,KNaCa2(PO4)2:Dy3+激发谱为300~500nm范围内的一系列锐谱,可被InGaN管芯和蓝光有效激发。尤其在385nm紫外光激发下,样品呈现较强白光发射,主发射峰位于485和577nm,对应Dy3+的。F9/2-6H15/2、4F9/2-6H13/2跃迁,形成“黄+蓝”单一基质白光。研究了Dy3+掺杂浓度对KNaCa2(PO4)2:Dy3+发光性能的影响,随Dy3+浓度增加,发光强度先增大后减小,最佳掺杂浓度为0.04mol,Y/B值在较小范围内先增大后减小。根据Dexter理论分析其浓度猝灭机理为电偶极一电偶极相互作用。测量并标定了Dy抖不同浓度下样品的色坐标均呈现白光发射。研究表明,KNaCa2(PO4)2:Dy3+材料是一种适合紫外-近紫外-蓝光激发的单一基质白光荧光粉。
採用高溫固相法製備瞭KNaCa2(PO4)2:Dy3+髮光材料併對其髮光特性進行瞭研究。光譜顯示,KNaCa2(PO4)2:Dy3+激髮譜為300~500nm範圍內的一繫列銳譜,可被InGaN管芯和藍光有效激髮。尤其在385nm紫外光激髮下,樣品呈現較彊白光髮射,主髮射峰位于485和577nm,對應Dy3+的。F9/2-6H15/2、4F9/2-6H13/2躍遷,形成“黃+藍”單一基質白光。研究瞭Dy3+摻雜濃度對KNaCa2(PO4)2:Dy3+髮光性能的影響,隨Dy3+濃度增加,髮光彊度先增大後減小,最佳摻雜濃度為0.04mol,Y/B值在較小範圍內先增大後減小。根據Dexter理論分析其濃度猝滅機理為電偶極一電偶極相互作用。測量併標定瞭Dy抖不同濃度下樣品的色坐標均呈現白光髮射。研究錶明,KNaCa2(PO4)2:Dy3+材料是一種適閤紫外-近紫外-藍光激髮的單一基質白光熒光粉。
채용고온고상법제비료KNaCa2(PO4)2:Dy3+발광재료병대기발광특성진행료연구。광보현시,KNaCa2(PO4)2:Dy3+격발보위300~500nm범위내적일계렬예보,가피InGaN관심화람광유효격발。우기재385nm자외광격발하,양품정현교강백광발사,주발사봉위우485화577nm,대응Dy3+적。F9/2-6H15/2、4F9/2-6H13/2약천,형성“황+람”단일기질백광。연구료Dy3+참잡농도대KNaCa2(PO4)2:Dy3+발광성능적영향,수Dy3+농도증가,발광강도선증대후감소,최가참잡농도위0.04mol,Y/B치재교소범위내선증대후감소。근거Dexter이론분석기농도졸멸궤리위전우겁일전우겁상호작용。측량병표정료Dy두불동농도하양품적색좌표균정현백광발사。연구표명,KNaCa2(PO4)2:Dy3+재료시일충괄합자외-근자외-람광격발적단일기질백광형광분。
Phosphor KNaCa2(PO4)2:Dy3+ was synthesized by high temperature solid-state reaction and its lumi- nescence properties were investigated. The excitation and emission spectra of KNaCa2(PO4)2:Dy3+ phosphor were measured by fluorospectrophotometer at room temperature. The excitation bands were all extended from 300 to 500nm, of which the strongest peak was located at 385nm. Phosphor can be excited effectively by InGaN chips in the range of 380-410nm and two major emission peaks locate at 485 and 620nm, which correspond to the 4 F9/2-6 H15/2 and 4 F9/2 6 H13/2 typical transition of Dy3+ , respectively. White light could be obtained by mixing the two emission colors, blue (485nm) and yellow (577nm), in the single host. The luminescent intensity of KNa- Ca2-x(PO4)2: xDy3+ powder changed along with different concentrations of Dy3+ ions, and the optimum con- centration of Dy3+ in KNaCa2 (PO4)2 was x(Dy) :0.04tool. It was confirmed that the mechanism of concentra- tion is electric dipole-dipole interaction. Color coordinates were measured and marked under different Dy3+ con- centrations, and all of the samples show the white light emission. The experimental results show that the KNaCa2(PO4)2:Dy3+ was a single host phosphor with superior properties for white light emitting diodes.