采用共沉淀法结合超声分散技术制备亚微米级红色荧光粉(Y,Gd)BO3:Eu3+,研究了超声时间对离子混合及沉淀过程的影响,以及进而对粉体性能的影响.采用红外光谱(IR)、扫描电子显微镜(SEM)、粉末X射线衍射(XRD)、PDP真空紫外荧光粉测试系统对荧光粉的组成、结构与光学性能等进行表征,结果表明:(Y,Gd)BO3:Eu3+中[BO3]基团中B原子以四配位为主,同时混有三配位,主体基质YBO3以六方碳钙石结构存在,空间群为P63/mmc(194),晶胞参数α=3.778,c=8.814;在离子混合和沉淀过程中经过超声分散制备的粉体与未经超声分散制备的粉体相比较,相对发光强度提高,色坐标红移(x=0.6392,y=0.3604→x=0.6422,y=0.3575),红橙比(626 nm/592 nm)提高12%,粒径细小,颗粒形貌均匀,分散性良好.
Sub-micron of red phosphor (Y, Gd)BO3:Eu3+ was prepared by co-precipitation method combined with ultrasonic dispersion. The effects of ultrasonic time on the ion-mixing and the precipitation process, thereby the effect on the performance of powders were studied. The composition, structure and optical properties under VUV were characterized by using infrared spectroscopy (IR), scanning electron microscopy (SEM), powder X-ray diffraction (XRD), PDP VUV phosphor test system.The results showed that [BO3] groups in (Y,Gd)BO3:Eu3+ is four-coordinate-based with a mixture of three-coordinate, (Y,Gd)BO3 is structure of vaterite, the space group is P63/mmc (194), with cell parameters are a=3. 778, c=8. 814. Comparing the powder prepared by using ultrasonic dispersion in the process of ion mixing and precipitation with the powder prepared by not using ultrasonic dispersion, the relative luminescence intensity increases, color coordinates a red shift (x= 0. 639 2, y=0. 360 4→x=0. 642 2, y= 0. 357 5), R/O (626 nm/592 nm) increases by 12%, particle size is about 600 nm. And it has a small uniform particle morphology and a good dispersion performance.
参考文献
| [1] | Hans B,Susan D,Maryvon Y N,et al.Review of health safety aspects of nanotechnologies in food production[J].Regulatory Toxicology and Harmacology,2009,53:52-62. |
| [2] | Shannigrahi S R,Tay F E H,Yao K,et al.Effect of rare earth(La,Nd,Sm,Eu,Gd,Dy,Er and Yb)ion substitutions on the microstructural and electrical properties of sol-gel grown PZT ceramics[J].J.European Ceramic Society,2004,24:163-170. |
| [3] | 谢安,袁曦明,王娟娟,等.白光LED用红色荧光粉LiEu1-xYx(WO4)0.5(MoO4)1.5的制备及其发光性能研究[J].中国科学E辑:技术科学,2009,39(6):1063-1068. |
| [4] | Yaminsky V V,Yaminskaya K B,Pertsov A V,et al.Nucleation and coagulation effects of ultrasound during precipitation in solution[J].Kolloidnyi Zhurnal,1991,53(1):100-104. |
| [5] | Wei Y L,Chang P C.Characteristics of nano zinc oxide synthesized under ultrasonic condition[J].J.Phys.and Chem.of Solids,2008,2-3(69):688-692. |
| [6] | 孙日圣,刘南生.稀土绿色荧光粉LaPO4:Ce,Tb 的煅烧条件研究[J].液晶与显示,2002,17(3):175-181. |
| [7] | Ding P,Pacek A W.De-agglomeration of goethite nano-particles using ultrasonic comminution device[J].Powder Technology,2008,187(1):1-10. |
| [8] | Lan J,Yang Y,Li X C.Microstructure and microhardness of SiC nanoparticles reinforced magnesium composites fabricated by ultrasonic method[J].Materials Science and Engineering,2004,25:284-290. |
| [9] | Jong M I,Hyun J Y,Yong S Y,et al.Synthesis of nano-sized gadolinia doped ceria powder by aerosol flame deposition[J].J.European Ceramic Society,2007,27:3671-3675. |
| [10] | 王娟娟,宋羽,李予晋,等.ESEM研究超声分散对稀土绿色荧光粉体晶型及其发光性能的影响[J].电子显微学报,2006,25(B08):323. |
| [11] | Sun J,Gao L A,Guo J K.Effect of dispersant on the measurement of particle size distribution of nano size Y-TZP[J].J.Inorganic Materials,1999,14(3):465-469. |
| [12] | 何玲,王育华.红色稀土硼酸盐荧光粉的合成及其发光性能的研究[D].中国博士学位论文全文数据库:兰州大学,2007. |
| [13] | 郑灵芝,舒万艮.硼酸铟稀土荧光粉的制备及其荧光特性的研究[D].中国优秀硕士学位论文全文数据库:中南大学,2002. |
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