以钨酸钠和醋酸铅为原料,加表面活性剂聚乙二醇200,合成钨酸铅纳米晶.合成的样品呈淡黄色,这是由于样品中存在铅空缺和氧空缺导致的.对样品进行X射线和红外分析及透射电子显微镜分析,结果表明:样品结晶良好,粒径在10 ~ 20 nm之间.将样品在不同温度下退火2h,研究空气中退火对性能的影响.结果表明:在600℃和700℃退火2h后,样品X射线和红外图谱中出现非特征峰;随着退火温度的升高,样品颗粒度变大.样品的光致发光谱中出现蓝色、绿色和红色发光带,随着退火温度的升高,强度增加.在700℃退火2h后,样品颜色变为白色,绿色发光带消失.
Lead tungstate nanocrystals were prepared by heating a lead tungstate muddy solution at 100 ℃ , which was made with natrium tungstate and lead acetate as starting materials, and adding polyglycol 200 as surfactant.The color of the products is straw yellow, because of the exiatence of defects of V_(Pb), and V_o.Resulte of X-ray diffraction (XRD) , IR analysis and observation of transmission electron microscopy indicate that crystallitzation of lead tungstate nanocrystals with diameter in the range of 10 - 20 nm are excellent.The products were heat-treated 2 h at different temperatures to study the influence of annealing on their properties.When the products are annealed at 600 ℃ and 700℃ for 2 h, nonstandard diffraction peaks are observed in their XRD and IR patterns.The size and the intensities of luminescent emissions in blue, green and red range of products increase with increasing temperatures.The luminescent emission in green range disappears for the sample annealed at 700 ℃ for 2 h, and with its color becoming white.
参考文献
| [1] | Annenkov AA.;Korzhik MV.;Lecoq P. .Lead tungstate scintillation material[J].Nuclear Instruments and Methods in Physics Research, Section A. Accelerators, Spectrometers, Detectors and Associated Equipment,2002(1/2):30-50. |
| [2] | Xiao-Luo Hu;Ying-Jie Zhu .Morphology Control of PbWO_4 Nano-and Microcrystals via a Simple,Seedless,and High-Yield Wet Chemical Route[J].Langmuir: The ACS Journal of Surfaces and Colloids,2004(4):1521-1523. |
| [3] | Geng J;Zhu JJ;Chen HY .Sonochemical preparation of luminescent PbWO4 nanocrystals with morphology evolution[J].Crystal growth & design,2006(1):321-326. |
| [4] | Titipun Thongtem;Sulawan Kaowphong;Somchai Thongtem .Sonochemical preparation of PbWO_4 crystals with different morphologies[J].CERAMICS INTERNATIONAL,2009(3):1103-1108. |
| [5] | Guizhen Wang;Chuncheng Hao .Fast Synthesis And Morphology Control Of Lead Tungstate Microcrystals Via A Microwave-assisted Method[J].Materials Research Bulletin: An International Journal Reporting Research on Crystal Growth and Materials Preparation and Characterization,2009(2):418-421. |
| [6] | Chen SJ.;Zhou JH.;Chen XT.;Li J.;Li LH.;Hong JM.;Xue ZL.;You XZ. .Fabrication of nanocrystalline ZnWO4 with different morphologies and sizes via hydrothermal route[J].Chemical Physics Letters,2003(1/2):185-190. |
| [7] | LIU Biao;YU Shu-hong;LI Lin-jie et al.Nanorod-direct oriented attachment growth and promoted crystallization procesases evidenced in case of ZnWO_4[J].Journal of Physical Chemistry B,2004,108(09):2788-2792. |
| [8] | Wang HL;Ma XD;Qian XF;Yin J;Zhu ZK .Selective synthesis of CdWO4 short nanorods and nanofibers and their self-assembly[J].International Journal of Quantum Chemistry,2004(12):4588-4596. |
| [9] | YU S H;Antonietti M;Colfen H et al.Synthesis of very thin 1D and 2D CdWO_4 nanoparticles with improved fluorecence behavior by polymercontrolled crystallization[J].Angewandte Chemie,2002,41(13):2356-2360. |
| [10] | Xie B.;Wu Y.;Jiang Y.;Li FQ.;Wu J.;Yuan SW.;Yu WC.;Qian YT. .Shape-controlled synthesis of BaWO4 crystals under different surfactants[J].Journal of Crystal Growth,2002(1/4):283-286. |
| [11] | SHI Hong-tao;QI Li-min;MA Ji-ming et al.Polymer-directed aynthesis of penniform BaWO_4 nanostructures in reverse micelles[J].Journal of the American Chemical Society,2003,125(12):3450-3451. |
| [12] | Wensheng Li;Tong B. Tang;Xiqi Feng .Complex color centers in ultraviolet-light irradiated PbWO_(4) single crystal[J].Journal of Applied Physics,2000(11):7692-7695. |
| [13] | Takai S;Nakanishi T;Oikawa K;Torii S;Hoshikawa A;Kamiyama T;Esaka T .Neutron diffraction and IR spectroscopy on mechanically alloyed La-substituted PbWO4[J].Solid state ionics,2004(3/4):297-304. |
| [14] | Lecoq P.;Auffray E.;Schneegans M.;Korzhik MV.;Missevitch OV.;Pavlenko VB.;Fedorov AA.;Annenkov AN.;Kostylev VL.;Ligun VD.;Dafinei I. .LEAD TUNGSTATE (PBWO4) SCINTILLATORS FOR LHC EM CALORIMETRY[J].Nuclear Instruments and Methods in Physics Research, Section A. Accelerators, Spectrometers, Detectors and Associated Equipment,1995(2/3):291-298. |
| [15] | QI Zeming;SHI Chaoshu;ZHOU Dongfang et al.The green emission and local structure of the scintillator PbWO_4[J].Physica B,2001,307(1-4):45-450. |
| [16] | 韩爱珍.PbWO4晶体的生长及其光学性能的研究[J].人工晶体学报,1996(04):304. |
| [17] | 王绍华,沈定中,任国浩,倪海洪,吴皓,殷之文.钨酸铅晶体着色问题的实验研究[J].无机材料学报,1999(06):847-852. |
| [18] | 杨培志,廖晶莹,沈炳孚,邵培发,倪海红,方全兴,殷之文.高质量钨酸铅(PWO)晶体的生长[J].无机材料学报,2002(02):210-214. |
| [19] | 克莱邦德K J;陈建峰;劭磊;刘晓林.纳米材料化学[M].北京:化学工业出版社,2004:233-234. |
| [20] | WANG Zhong-lin.Characterization of Nanophase Materials[M].New York:Wiley-VCH Verlag GmbH,2000:3-4. |
| [21] | Chauhan A K .Investigations on the stoichiometry of lead tungtate melt[J].Crystal Growth and Design,2004,4(04):755-758. |
| [22] | Groenink J A;Blass G .Some new observations on the luminescence on PbMO_4 and PbWO_4[J].Solid State Chemistry,1980,32(01):9-20. |
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