铈掺杂钇铝石榴石( YAG:Ce)黄色荧光粉的形貌和粒度对其发光性能及其应用均非常重要,理想的形貌应是晶粒尺寸可控的球形.本文总结了制备方法、工艺参数及后处理条件在YAG:Ce荧光粉形貌调控中的研究概况,分析了各种形貌调控手段的优缺点,归纳了粉体形貌与粒度调控的主要特点.
参考文献
[1] | Jang H,Won Y,Jeon D.Improvement of Electroluminescent Property of Blue LED Coated with Highly Luminescent Yellowemitting Phosphors[J].Appl Phys B,2009,95:715-720. |
[2] | Narendran N,Gu Y,Freyssinier J P,et al.Solid-state Lighting:Failure Analysis of White LEDs[J].J Cryst Growth,2004,268:449-456. |
[3] | Shur M,Zukauskas A.Solid-State Lighting:Toward Superior Illumination[J].P IEEE,2005,93(10):1692-1702. |
[4] | TONG Maofu,FAN Weiming,LIN Zhimin.Study of Spherical YAG Phosphors with Big Size[J].Lamps Lighting,2010,(4):1-5(in Chinese).仝茂福,范伟明,林智敏.大颗粒球形YAG荧光粉的研究[J].光源与照明,2010,(4):1-5. |
[5] | Vecht A,Gibbons C,Davies D,et al.Engineering Phosphors for Field Emission Displays[J].J Vac Sci Technol B,1999,17:750-757. |
[6] | Chou C,Wu C,Yeh C,et al.The Optimum Conditions for Solid-state-preparod (Y3-xCex)Al5O12 Phosphor Using the Taguchi Method[J].Adv Powder Technol,2012,23(1):97-103. |
[7] | Won C,Nerisisyan H,Won H,et al.Efficient Solid-state Route for the Preparation of Spherical YAG:Ce Phosphor Particles[J].J Alloys Compd,2011,509:2621-2626. |
[8] | Won H,Nerisisyan H,Won C,et al.Effect of Metal Halide Fluxes on the Microstructure and Luminescence of Y3Al5O12:Ce3 + Phosphors[J].Mater Chem Phys,2011,129 (3):955-960. |
[9] | Silver J,Martinez-Rubio M I,Ireland T G,et al.The Effect of Particle Morphology and Crystallite Size on the Upconversion Luminescence Properties of Erbium and Ytterbium Co-doped Yttrium Oxide Phosphors[J].Phys Chem B,2001,105:948-953. |
[10] | Chiang C,Tsai M,Hsiao C,et al.Synthesis of YAG:Ce Phosphor via Different Aluminum Sources and Precipitation Processes[J].J Alloy Comp,2006,416:265-269. |
[11] | Zhang K,Liu H,Wu Y,et al.Co-precipitation Synthesis and Luminescence Behavior of Ce-doped Yttrium Aluminum Garnet(YAG:Ce) Phosphor:The Effect of Precipitant[J].J Alloys Compd,2008,453:265-270. |
[12] | Su J,Zhang Q,Gu C,et al.Preparation and Characterization of Y3Al5O12(YAG) Nano-powder by C,o-precipitation Method[J].Mater Res Bull,2005,40:1279-1285. |
[13] | GUO Wang,LU Tiecheng,TONG Shihong,et al.Effect Factors on Pure Phase of YAG Nano-sized Powder by Coprecipitation Method[J].J Funct Mater,2006,37(1):66-69 (in Chinese).郭旺,卢铁城,仝世红,等.共沉淀法制备纯相钇铝石榴石(YAG)纳米粉体中的若干影响因素[J].功能材料,2006,37(1):66-69. |
[14] | Wang Y,Yuan P,Xu H,et al.Synthesis of Ce:YAG Phosphor da Homogeneous Precipitation under Microwave Irradiation[J].J Rare Earth,2006,24(S1):183-186. |
[15] | Yang H,Yuan L,Zhu G,et al.Luminescent Properties of Y AG:Ce3+ Phosphor Powders Prepared by Hydrothermalhomogeneous Precipitation Method[J].Mater Lett,2009,63:2271-2273. |
[16] | Zhang S,Zhuang W,He T,et al.Study on Co-precipitation Synthesized Y3Al5O12:Ce Yellow Phosphor for White LED[J].J Rare Earth,2010,28(5):713-716. |
[17] | Yuan F,Ryu H.Ce-doped YAG Phosphor Powders Prepared by Co-precipitation and Heterogeneous Precipitation[J].Mater Sci Eng B,2004,107:14-18. |
[18] | Lee H,Cheng C,Huang C.The Synthesis and Optical Property of Solid-state-prepared YAG:Ce Phosphor by a Spray-drying Method[J].Mater Res Bull,2009,44:1081-1085. |
[19] | CHEN Shaoyun,ZENG Renjie,CHEN Yibin,et al.YAG:Ce3+ Phosphor Prepared by Spray Drying then Heat Treatment at High Temperature[J].J Funct Mater,2010,41(11):1944-1947(in Chinese).陈少云,曾人杰,陈毅彬,等.喷雾干燥-高温热处理两步法制备YAG:Ce3+荧光粉[J].功能材料,2010,41(11):1944-1947. |
[20] | Lee J,Lec J,Woo E,et al.Synthesis of Nanosized Ce3+,Eu3+-Codoped YAG Phosphor in a Continuous Supercritical Water System[J].Ind Eng Chem Res,2008,47:5994-6000. |
[21] | Zheng Q,Li B,Zhang H,et al.Fabrication of YAG Mono-dispersed Particles with a Novel Combination Method Employing Supercritical Water Process[J].J Supercrit Fluid,2009,50:77-81. |
[22] | Hassanzadeh-Tabrizi S.Synthesis and Luminescence Properties of YAG:Ce Nanopowder Prepared by the Pechini Method[J].Adv Powder Technol,2012,23(1):97-103. |
[23] | Zhang N,Wang D,Li L,et al.YAG:Ce Phosphors for WLED via Nano-Pesudoboehmite Sol-Gel Route[J].J Rare Earth,2006,24:294-297. |
[24] | Liu C,Wang R,Xu Z,et al.Crystallization,Morphology and Luminescent Properties of YAG:Ce3+ Phosphor Powder Prepared by Polyacrylamide Gel Method[J].Trans Nonferrous Met Soc China,2007,17:1093-1099. |
[25] | Haranath D,Chander H,Sharma P,et al.Enhanced Luminescence of Y3Al5O12:Ce3 + Nanophosphor for White Lightemitting Diodes[J].Appl Phys Lett,2006,89(17):173118-173118-3. |
[26] | Yang Z,Li X,Yang Y,et al.The Influence of Different Conditions on the Luminescent Properties of YAG:Ce Phosphor Formed by Combustion[J].J Lumin,2007,122/123:707-709. |
[27] | Jiao H,Ma Q,He L,et al.Low Temperature Synthesis of YAG:Ce Phosphors by LiF Assisted Sol-gel Combustion Method[J].Powder Technol,2010,198:229-232. |
[28] | Yan X,Zheng S,Yu R,et al.Preparation of YAG;Ce3+ Phosphor by Sol-gel Low Temperature Combustion Method and Its Luminescent Properties[J].Trans Nonferrous Met Soc China,2008,18:648-653. |
[29] | Mancic L,Marinkovic K,Marinkovic B,et al.YAG:Ce3+ Nanostructured Particles Obtained via Spray Pyrolysis of Polymeric Precursor Solution[J].J Eur Ceram Soc,2010,30:577-582. |
[30] | Kang Y,Lengoro I,Park S,et al.YAG:Ce Phosphor Particles Prepared by Ultrasonic Spray Pyrolysis[J].Mater Res Bull,2000,35:789-798. |
[31] | Lee S,Jung D,Han J,et al.Fine-sized Y3Al5O12:Ce Phosphor Powders Prepared by Spray Pyrolysis from the Spray Solution with Barium Fluoride Flux[J].J Alloys Compd,2009,477:776-779. |
[32] | Lee S,Kuo H,Jung D,et al.Effects of BaF2 Flux on the Properties of Yellow-light-emitting Terbium Aluminum Garnet Phosphor Powders Prepared by Spray Pyrolysis[J].Opt Mater,2009,31:870-875. |
[33] | GAO Shengxia,CHEN Yibin,ZENG Renjie.Preparation and Characterization of Agglomerate-free YAG:Ce3+ Phosphor by Co-precipitating and Spray Drying[J].Chinese J Lumin,2010,31(6):806-811 (in Chinese).郜盛夏,陈毅彬,曾人杰.无团聚YAG:Ce3+荧光粉的制备与表征[J].发光学报,2010,31(6):806-811. |
[34] | Nien Y.Improved Photoluminescence of Y3Al5O12:Ce Nanoparticles by Silica Coating[J].J Am Ceram Soc,2010,93(6):1688-1691. |
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