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掺铌钨酸锌单晶的研究 被引量:1

STUDY OF Nb^(5+): ZnWO_4 SINGLE CRYSTAL
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摘要 本文研究了掺铌钨酸锌单晶的生长特性,该种晶体对生长方向、籽晶质量和扩肩速度很敏感,测定了铌的有效分凝系数K_(eff)=1.1。对掺铌钨酸锌单晶的去色机制进行了深入的探讨,提出由于氧空位导致ZnWO_4单晶中色心的存在,而氧空位的产生是由于W—O键较弱,高温下WO_(?)八面体容易失去氧离子所致。还测定了该晶体的能量分辨率和衰减时间,对漂移特性亦进行了初步的测定。已用提拉法生长出无色透明的大块掺铌钨酸锌单晶。 Growth characteristics of Nb^(5+): ZnWO_4 single crystal were Investigated. Crystal growth of Nb^(5+): ZnWO_4 is highly sensitive to growth direction, quality of seed crystal and rate of shouldering. The effective segregation coefficient of Nb^(5+) is K_(eff)=1.1. Fading mechanism of Nb^(5+) ZnWO_4 single crystal was further dlscussed. It is suggested that the existence of colour centre in ZnWO_4 single crystal results from the oxygen vacancies produced by losing of oxygen ions from the atomic group WO_6 at high temperature because of the weak strenth of the bond W—O. The energy resolution of the crystal was measured by X-rays from a ^(137)Cs source. The decay time distribution for Nb^(5+): ZnWO_4 single crystal was measured by means of the single photon counting method. Three decay time were obtained. Shift characteristics of the crystal were also measured. Colourless, transparent, bulk crystal was obtained by use of Czochralski technique.
作者 周亚栋 刘国庆 王启宗 陈纲 何先莉 黄志英 邵毓莺 郭愚益 祝玉灿 郑志鹏
机构地区 北京工业大学 中国科学院高能物理研究所
出处 《硅酸盐学报》 EI CAS CSCD 北大核心 1989年第4期344-347,共4页 Journal of The Chinese Ceramic Society
关键词 钨酸锌 闪烁材料 掺铌 Nb^(5+):ZnWO_4 scintillation material
分类号 TQ132.41 [化学工程—无机化工]
  • 相关文献

参考文献4

  • 1汪泓,刘燕,周亚栋,陈纲,周棠,王剑宏,胡伯清.ZnWO_4晶体的光学性质[J].物理学报,1989,38(4):670-674. 被引量:4
  • 2汪泓,物理学报,1988年,37卷,43页
  • 3周亚栋,硅酸盐学报,1986年,14卷,4期,479页
  • 4尹敬执,无机化学.下,1978年

二级参考文献4

  • 1汪泓,物理学报,1988年,37卷,43页
  • 2周亚栋,硅酸盐学报,1986年,14卷,479页
  • 3周亚栋,1985年
  • 4胡伯清,物理学报,1983年,32卷,1098页

共引文献3

同被引文献31

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  • 2Brixner L H. New X-ray phosphors [J]. Materials Chemistry and Physics, 1987,16(1) :253-281.
  • 3Treadaway M J, Powell R C. Luminescence of calcium tungstate crystals[J]. The Journal of Chemical Phys- ics,1974,61(10):4 003-4 011.
  • 4Vidya S, Solomon Sam, Thomas J K. Nanocrystalline scheelite SrWO4 : A low temperature co-fired ceramic optical material-synthesis and properties[J]. Journal of Materials Science: Materials in Electronics, 2014, 25 (2) :693-701.
  • 5Peter A J,Banu I B S. Synthesis and luminescent prop- erties of Tb3+ activated AWO4 based (A=Ca and Sr) efficient green emitting phosphors[J]. Journal of Mate- rials Science: Materials in Electronics, 2014, 25 ( 6 ) : 2 771-2 779.
  • 6Xie Hongde, Xu Lin, Qin Lin, et al. Orange-emitting Ba4R2ZrWO12 : Eu3+ (R= La, Gd, Y) with the stron- gest 5Do--"7Fo transition[J].Materials Letters, 2014, 115:18-20.
  • 7Santos V C D,Wilson K,Lee A F,et al. Physicochemi- eal properties of WO.:/ZrO2 catalysts for palmitic acid esterifieation[J]. Applied Catalysis B: Environmental, 2015.162,75-84.
  • 8Nedumaran D, Pandurangan A. Effect tungstenloading on zirconia impregnated MCM-41 and its cata- lytic activity on transesterification reaction[J]. Journal of Porous Materials,2013,20(4) :897-908.
  • 9Guldhe Abhishek, Singh Bhaskar, Rawat Ismail, et al. Synthesis of biodiesel from scenedesmus sp. by micro- wave and ultrasound assisted in situ transesterification using tungstated zirconia as a solid acid catalyst[J]. Chemical Engineering Research and Design, 2014, 92 (8):1 503-1 511.
  • 10Bozell J J, Moens L, Elliott D C, et al. Production of levulinic acide and use as a platform chemical for de- rived products[J]. Resources, Conservation and Recy-cling, 2000,28 (3-4) : 227-239.

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硅酸盐学报
1989年 第4期

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