碱土铝酸盐长余辉发光材料的研究进展与发展方向
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摘要
介绍了碱土铝酸盐长余辉材料及发展历程,对碱土铝酸盐长余辉材料的余辉发光机理、合成方法和应用领域进行了综述,指出了碱土铝酸盐长余辉发光材料目前存在的问题和今后的研究方向。
The development of alkaline earth aluminates long-lasting phosphorescent material was introduced; the luminescence mechanism, preparation methods and application status of alkaline earth aluminates long-lasting phosphorescent material were summarized. The existing problems of alkaline earth aluminates long-lasting phosphorescent material was pointed out, and the future research direction and application were also prospected.
The development of alkaline earth aluminates long-lasting phosphorescent material was introduced; the luminescence mechanism, preparation methods and application status of alkaline earth aluminates long-lasting phosphorescent material were summarized. The existing problems of alkaline earth aluminates long-lasting phosphorescent material was pointed out, and the future research direction and application were also prospected.
引文
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[14]刘小蕊,张玉奇,张瑞军.铝酸盐长余辉发光材料的研究进展[J].山东陶瓷,2007,30(2):23-26.
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[16]MATSUZAWA T,AOKI Y,TAKEUCHI N,et al.Anew long phosphorescent phosphor with high brightness SrAl2O4∶Eu2+,Dy3+[J].Journal of electrochemistry society,1996,143(8):2 670-2 673.
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[18]王博.低温固相反应法合成铝酸锶铕镝研究[D].成都,西华大学,2009.
[19]李亚.稀土掺杂Sr3Al2O6的合成与发光性能研究[D].广州,广东工业大学,2012.
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[21]张天之,苏锵.MAl2O4∶Eu2+,Re3+长余辉发光性质的研究[J].发光学报,1999,20(2):170-175.
[22]QIU J,KAWASAKI M,TANAKA K,et aLPhenomenon and mechanism of long-lasting phosphorescence in Eu2+-doped aluminosilicate glasses[J].Journal of physics&chemistry of solids,1998,59:1 521-1 525.
[23]QIU J,MIURA K,INOUYE H,et al.Blue emission induced in Eu2+-doped glasses by an infrared femtosecond laser[J].Journal of non-crystalline solids,1999,244:185-188.
[24]田顺.暖色长余辉材料研究[D].杭州,杭州电子科技大学,2014.
[25]蒙丽丽.稀土和Mn(IV)掺杂(氟)磷酸盐、碱土铝酸盐荧光粉的合成及发光性质研究[D].南宁,广西大学,2015.
[26]MURAT G E,HASAN K,MEHMET A G,et al.The effect of boron on processing and phosphorescence behavior of SrAl4O7(SA2)co-doped with Eu2+and Dy3+[J].Materials research society online proceedings library,2011,1309:51-56.
[27]张小博,刘海萍.高低温环境下铝系长余辉材料的性能及稳定性[J].广州化工,2012,40(14):107-109.
[28]赵军武,齐晓霞.长余辉材料的研究进展[J].半导体光电,2005,26(4):267-273.
[29]李玉林.共沉淀法研制蓝色长余辉发光体[J].化工进展,2009,S1:223-226.
[30]袁曦明,田熙科,于江波,等.共沉淀法制备长余辉发光材料SrAl2O4∶Eu2+,Dy3+的研究[J].材料开发与应用,2002,17(2):26-30.
[31]CHEN R,CHEN D.Synthesis and luminescence properties of CaTiO3∶Pr3+phosphor from oxalate precursor[J].Materials letters,2013,105(6):1-3.
[32]李海玲,王银海,张万鑫,等.Eu3+掺杂CaO的合成与红色长余辉发光性能研究[J].物理学报,2012,22:437-442.
[33]孙文周.铝酸盐长余辉发光材料的微波等离子体合成技术研究[D].绵阳,西南科技大学,2008.
[34]宋会花,刘文芳,高元哲.SrAl2O4∶Eu2+,RE3+长余辉发光材料的微波合成及其发光特性[J].人工晶体学报,2008,37(2):327-331.
[35]刘文芳.铝酸锶铕发光材料的微波合成和性能研究[D].石家庄,河北师范大学,2007.
[36]蔡少华,徐剑,李沅英,等.铝酸盐长余辉荧光粉的微波加热法合成及发光性能[J].中国稀土学报(专辑),1999,17:697-699.
[37]李沅英,戴德昌,蔡少华,等.(Ce0.67Tb0.33)MgAl11O19和BaMgAl10O17∶Eu2+荧光体的微波辐射合成及其发光性能[J].中国稀土学报,1998,16(3):284-287.
[38]PREETHI K R S,LU C,THIRUMALAI J,et al SrAl4O7∶Eu2+nanocrystals:synthesis and fluorescence properties[J].Journal of physics D:applied physics,2004,37:2 664-2 669.
[39]KUTTY T R N,JAGANNATHAN R P.Luminescence of Eu2+in strontium aluminates prepared by the hydrothermal method[J].Material research bulletin,1990,25(11):1 355-1 362.
[40]李家成,周忠慎.新型蓄光材料掺铕铝酸锶制备进展[J].陶瓷工程,2000,34(1):43-46.
[41]周永慧,林君,张洪杰.纳米发光材料研究的若干进展[J].化学研究与应用,2001,13(2):118-124.
[42]WAKAKUWA M,MAKISHIMA A,KAWASHIMAM.Synthesis of gel-derived cellular alumina[J].Journal of materials science letters,1990,9(11):1 304-1 306.
[43]陈吉涛,顾锋,江浩,等.长余辉发光材料SrAl2O4Eu2+,Dy3+的燃烧法合成与荧光性能研究[J].中国粉体技术,2008,14:97-100.
[44]颂刚,张力,石光,等.燃烧法合成长余辉发光材料SrAl2O4∶Eu2+,Dy3+[J].华南师范大学学报,2007,(1):82-88.
[45]喻俊,黄志良.燃烧法制备SrAl2O4∶Eu2+,Dy3+长余辉发光材料[J].武汉工程大学学报,2008,30(2):73-77.
[46]陈伟.新型硅酸盐长余辉发光材料的制备与性能研究[D].武汉,武汉理工大学,2004.
[2]XU J,CHEN D Q,YU Y L,et al.Cr3+∶SrGa12O19:a broadband near-infrared long-persistent phosphor[J]Chemistry-an asian journal,2014,9(4):1 020-1 025.
[3]PAN Z,LU Y Y,LIU F.Sunlight-activated longpersistent luminescence in the near-infrared from Cr3+-doped zinc gallogermanates[J].Nature materials,2012,11(1):58-63.
[4]LIU F,YAN W,CHUANG Y J,et al.Photostimulated near-infrared persistent luminescence as a new optical read-out from Cr3+-doped LiGa5O8[J].Scientific reports,2013,3(3):31 554.
[5]陈文波.可见光长余辉材料的设计合成及其余辉特性的研究[D].兰州,兰州大学,2016.
[6]WANG Y,GONG Y,XU X,et al.Recent progress in multicolor long persistent phosphors[J].Journal of luminescence,2013,133(133):25-29.
[7]LI Z,ZHANG H,FU H.Red long-lasting phosphorescence based on color conversion process[J].Optical materials,2013,35(3):451-455.
[8]曲艳东,李晓杰.铝酸盐系长余辉发光材料的研究新进展[J].稀有金属,2006,30(1):100-106.
[9]邓瑞平,宋术岩,庞然,等.稀土硫化物的研究进展[J].中国科学:化学,2012(09):1 337-1 355.
[10]刘祖武,现代无机合成[M].北京:化学工业出版社,2001.
[11]LI J G,KEGAMI T,LEE J H,et al.A wet-chemical process yielding reactive magnesium aluminate spinel(MgAl2O4)powder[J].Ceramics International,2001,27:48l-489.
[12]PALILLA F C,LEVINE A K,TOCKS M RFluorescent propenies of alkaline earth aluminates of the type MAl2O4:activated by divalent eumpium[J]Journal of the electrochemical society,1968,115(6):642-644.
[13]ABBRUSCATO V.Optical and electrical properties of SrAl2O4∶Eu2+[J].Journal of the electrochemical society,1971,118:930-935.
[14]刘小蕊,张玉奇,张瑞军.铝酸盐长余辉发光材料的研究进展[J].山东陶瓷,2007,30(2):23-26.
[15]徐晓.超长余辉发光材料的制备及其性能表征[D]上海,华东师范大学,2008.
[16]MATSUZAWA T,AOKI Y,TAKEUCHI N,et al.Anew long phosphorescent phosphor with high brightness SrAl2O4∶Eu2+,Dy3+[J].Journal of electrochemistry society,1996,143(8):2 670-2 673.
[17]YAMAMOTO H,MATSUZAWA T.Mechanism of long phosphorescence of SrAl2O4∶Eu2+,Dy3+and CaAl2O4Eu2+,Nd3+[J].Journal of luminescence,1997(72-74):287-289.
[18]王博.低温固相反应法合成铝酸锶铕镝研究[D].成都,西华大学,2009.
[19]李亚.稀土掺杂Sr3Al2O6的合成与发光性能研究[D].广州,广东工业大学,2012.
[20]QIU J R,HIRAO K.Long lasting phosphorescence in Eu2+-doped calcium aluminoborate glasses[J].Solid state communications,1998,106(12):795-798.
[21]张天之,苏锵.MAl2O4∶Eu2+,Re3+长余辉发光性质的研究[J].发光学报,1999,20(2):170-175.
[22]QIU J,KAWASAKI M,TANAKA K,et aLPhenomenon and mechanism of long-lasting phosphorescence in Eu2+-doped aluminosilicate glasses[J].Journal of physics&chemistry of solids,1998,59:1 521-1 525.
[23]QIU J,MIURA K,INOUYE H,et al.Blue emission induced in Eu2+-doped glasses by an infrared femtosecond laser[J].Journal of non-crystalline solids,1999,244:185-188.
[24]田顺.暖色长余辉材料研究[D].杭州,杭州电子科技大学,2014.
[25]蒙丽丽.稀土和Mn(IV)掺杂(氟)磷酸盐、碱土铝酸盐荧光粉的合成及发光性质研究[D].南宁,广西大学,2015.
[26]MURAT G E,HASAN K,MEHMET A G,et al.The effect of boron on processing and phosphorescence behavior of SrAl4O7(SA2)co-doped with Eu2+and Dy3+[J].Materials research society online proceedings library,2011,1309:51-56.
[27]张小博,刘海萍.高低温环境下铝系长余辉材料的性能及稳定性[J].广州化工,2012,40(14):107-109.
[28]赵军武,齐晓霞.长余辉材料的研究进展[J].半导体光电,2005,26(4):267-273.
[29]李玉林.共沉淀法研制蓝色长余辉发光体[J].化工进展,2009,S1:223-226.
[30]袁曦明,田熙科,于江波,等.共沉淀法制备长余辉发光材料SrAl2O4∶Eu2+,Dy3+的研究[J].材料开发与应用,2002,17(2):26-30.
[31]CHEN R,CHEN D.Synthesis and luminescence properties of CaTiO3∶Pr3+phosphor from oxalate precursor[J].Materials letters,2013,105(6):1-3.
[32]李海玲,王银海,张万鑫,等.Eu3+掺杂CaO的合成与红色长余辉发光性能研究[J].物理学报,2012,22:437-442.
[33]孙文周.铝酸盐长余辉发光材料的微波等离子体合成技术研究[D].绵阳,西南科技大学,2008.
[34]宋会花,刘文芳,高元哲.SrAl2O4∶Eu2+,RE3+长余辉发光材料的微波合成及其发光特性[J].人工晶体学报,2008,37(2):327-331.
[35]刘文芳.铝酸锶铕发光材料的微波合成和性能研究[D].石家庄,河北师范大学,2007.
[36]蔡少华,徐剑,李沅英,等.铝酸盐长余辉荧光粉的微波加热法合成及发光性能[J].中国稀土学报(专辑),1999,17:697-699.
[37]李沅英,戴德昌,蔡少华,等.(Ce0.67Tb0.33)MgAl11O19和BaMgAl10O17∶Eu2+荧光体的微波辐射合成及其发光性能[J].中国稀土学报,1998,16(3):284-287.
[38]PREETHI K R S,LU C,THIRUMALAI J,et al SrAl4O7∶Eu2+nanocrystals:synthesis and fluorescence properties[J].Journal of physics D:applied physics,2004,37:2 664-2 669.
[39]KUTTY T R N,JAGANNATHAN R P.Luminescence of Eu2+in strontium aluminates prepared by the hydrothermal method[J].Material research bulletin,1990,25(11):1 355-1 362.
[40]李家成,周忠慎.新型蓄光材料掺铕铝酸锶制备进展[J].陶瓷工程,2000,34(1):43-46.
[41]周永慧,林君,张洪杰.纳米发光材料研究的若干进展[J].化学研究与应用,2001,13(2):118-124.
[42]WAKAKUWA M,MAKISHIMA A,KAWASHIMAM.Synthesis of gel-derived cellular alumina[J].Journal of materials science letters,1990,9(11):1 304-1 306.
[43]陈吉涛,顾锋,江浩,等.长余辉发光材料SrAl2O4Eu2+,Dy3+的燃烧法合成与荧光性能研究[J].中国粉体技术,2008,14:97-100.
[44]颂刚,张力,石光,等.燃烧法合成长余辉发光材料SrAl2O4∶Eu2+,Dy3+[J].华南师范大学学报,2007,(1):82-88.
[45]喻俊,黄志良.燃烧法制备SrAl2O4∶Eu2+,Dy3+长余辉发光材料[J].武汉工程大学学报,2008,30(2):73-77.
[46]陈伟.新型硅酸盐长余辉发光材料的制备与性能研究[D].武汉,武汉理工大学,2004.