人工晶体学报
人工晶體學報
인공정체학보
2009年
6期
1384-1387,1393
,共5页
薛红伟%崔彩娥%黄平%郝虎在
薛紅偉%崔綵娥%黃平%郝虎在
설홍위%최채아%황평%학호재
铝酸锶%固相法%烧结温度
鋁痠鍶%固相法%燒結溫度
려산송%고상법%소결온도
strontium aluminate%solid state reaction method%sintering temperature
采用传统的高温固相法合成了蓝色长余辉发光材料Sr_2Al_6O_(11)∶Eu~(2+),Dy~(3+),系统研究了烧结温度对Eu~(2+)和Dy~(3+)共掺杂蓝色铝酸锶长余辉材料物相及发光性能的影响.用X射线衍射仪对所合成的材料进行物相分析,用荧光分光光度计记录了样品的激发光谱和发射光谱,用亮度计记录其余辉衰减曲线.结果表明:随着烧结温度从1100 ℃升高到1300 ℃,材料的物相由富锶相逐渐向富铝相转变,其中1200 ℃条件下合成的样品主相为Sr_2Al_6O_(11);发射光谱首先发生蓝移,随后又发生红移,其中1200 ℃条件下合成的样品发射光谱峰值波长最短(468 nm);主相为Sr_2Al_6O_(11)的蓝色铝酸锶长余辉材料的余辉时间(≥1 mcd/m2)可达240 min以上.
採用傳統的高溫固相法閤成瞭藍色長餘輝髮光材料Sr_2Al_6O_(11)∶Eu~(2+),Dy~(3+),繫統研究瞭燒結溫度對Eu~(2+)和Dy~(3+)共摻雜藍色鋁痠鍶長餘輝材料物相及髮光性能的影響.用X射線衍射儀對所閤成的材料進行物相分析,用熒光分光光度計記錄瞭樣品的激髮光譜和髮射光譜,用亮度計記錄其餘輝衰減麯線.結果錶明:隨著燒結溫度從1100 ℃升高到1300 ℃,材料的物相由富鍶相逐漸嚮富鋁相轉變,其中1200 ℃條件下閤成的樣品主相為Sr_2Al_6O_(11);髮射光譜首先髮生藍移,隨後又髮生紅移,其中1200 ℃條件下閤成的樣品髮射光譜峰值波長最短(468 nm);主相為Sr_2Al_6O_(11)的藍色鋁痠鍶長餘輝材料的餘輝時間(≥1 mcd/m2)可達240 min以上.
채용전통적고온고상법합성료람색장여휘발광재료Sr_2Al_6O_(11)∶Eu~(2+),Dy~(3+),계통연구료소결온도대Eu~(2+)화Dy~(3+)공참잡람색려산송장여휘재료물상급발광성능적영향.용X사선연사의대소합성적재료진행물상분석,용형광분광광도계기록료양품적격발광보화발사광보,용량도계기록기여휘쇠감곡선.결과표명:수착소결온도종1100 ℃승고도1300 ℃,재료적물상유부송상축점향부려상전변,기중1200 ℃조건하합성적양품주상위Sr_2Al_6O_(11);발사광보수선발생람이,수후우발생홍이,기중1200 ℃조건하합성적양품발사광보봉치파장최단(468 nm);주상위Sr_2Al_6O_(11)적람색려산송장여휘재료적여휘시간(≥1 mcd/m2)가체240 min이상.
Blue-emitting long-lasting phosphors Sr_2Al_6O_(11)∶Eu~(2+),Dy~(3+) were synthesized by conventional solid state reaction method. The effects of sintering temperature on the phase-formation and the luminescent properties of the Eu~(2+)and Dy~(3+) co-doped blue strontium aluminates were investigated. Phase identification was carried out by X-ray powder diffraction analysis. Excitation and emission spectra were recorded using a luminescence spectrometer, and afterglow curves were measured by a photometer. The results revealed that with the calcining temperature rising from 1100 ℃ to 1300 ℃ gradually, the aluminate rich in strontium changed to the aluminate rich in aluminum while emission band shifted to the shorter wavelength side, and then to the longer wavelength side. The phosphor with a main phase Sr_2Al_6O_(11) and an emission peak at shortest wavelength of 468 nm was synthesized with a calcining temperature of 1200 ℃.The decay time (≥1 mcd/m2) of the phosphor whose main phase was Sr_2Al_6O_(11) reached 240 min.