共查询到19条相似文献,搜索用时 78 毫秒
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掺杂Eu3+离子的钨酸锂的固相合成及其发光特性 总被引:1,自引:0,他引:1
采用固相反应法合成了掺杂Eu3 的Li2WO4材料,并通过X射线粉末衍射对其结构进行了表征,掺杂Eu3 的Li2WO4的晶体结构属四方晶系,晶胞参数a=14.2780 ,c=9.5863 ,属R3(No.148)空间群,测定了其激发光谱和发射光谱,探讨了掺杂Eu3 的Li2WO4的发光特性。 相似文献
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以共轭体系大小不同、配位基团与共轭体系的距离不同的三种羧酸:1-萘甲酸、苯甲酸、苯乙酸和氯化稀土为原料,采用低温固相反应合成了三种羧酸铕配合物.经元素分析、稀土络合滴定、摩尔电导确定了配合物的组成为:Eu(L1)3,Eu(L2)3·1.5H2O,Eu(L3)3·1.5H2O(L1=C10H7COO-,L2=C6H5COO-,L3=C6H5CH2COO-).测定了配体及配合物的的IR谱、1HNMR谱及配体的磷光光谱和铕配合物荧光激发和发射光谱.根据磷光发射光谱数据计算了配体的三重态能级值.三个配合物的荧光发射主峰5D0→7F2强度按萘甲酸铕苯甲酸铕>苯乙酸铕的顺序变化,由此可见配体的结构不同对铕离子的发光将产生很大的影响. 相似文献
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采用固相法合成镁铝氧化物,通过固相反应的热力学计算得到临界温度值,并通过热重曲线分析反应的中间过程。加入AlF3参与到矿石固相合成反应中,通过XRD观察发现,AlF3能有效降低矿石固相合成温度近200℃,还起到助熔剂的作用。 相似文献
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稀土离子掺杂对长余辉发光玻璃发光性能的影响 总被引:2,自引:0,他引:2
选择制备了系列Eu^2+,Dy^3+共掺杂的硼铝酸锶长余辉发光玻璃。利用发光光谱、余辉衰减曲线、热释光谱系统研究了稀土离子掺杂对长余辉玻璃发光性能的影响。研究结果表明,不同掺量组合的Eu^2+及Dy^3+对长余辉玻璃发光性能有不同影响,在Eu^2+及Dy^3+掺量比为l:l(摩尔比)的情形下,随Eu^2+离子掺量的增多,发光性能下降;在Eu^2+及Dy^3+掺量比为1:2的情形下,随Eu^2+离子掺量的增多,发光性能增强。在此实验基础上,围绕缺陷形态及其与稀土离子间的能量传递,提出了可能的长余辉机制。 相似文献
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以八水氯氧化锆和草酸钠为原料,固相反应合成出前驱体二水草酸氧锆,前驱体在600℃分解5 h,得到氧化锆粉体。结果表明,产物为粒度分布均匀、纯度高、单斜相和四方相共存的纳米氧化锆粉体,其一次颗粒尺寸在15 nm左右。 相似文献
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以七水硫酸锌和无水草酸钠为原料,用室温固相化学反应首先合成出前驱物草酸锌,草酸锌在400℃分解3h,得到产物纳米氧化锌。用X-射线粉末衍射和透射电镜对产物的组成、大小、型貌进行表征。结果表明,产物纳米氧化锌为粒度分布均匀的球形六角晶系结构,平均粒径28nm。 相似文献
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纳米氧化镧的固相合成 总被引:1,自引:0,他引:1
以LaCl_3·6H_2O和H_2C_2O_4·2H_2O为原料,用室温固相化学反应首先合成出前驱物草酸镧,经750℃分解3h,得到产物纳米氧化镧。用X-射线粉末衍射和透射电镜对产物的组成、大小、形貌进行表征。结果表明:纳米氧化镧为粒度分布均匀的长方体形结构,平均粒径12nm。并考察了表面活性剂对粒径大小和分散性的影响。 相似文献
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邻苯二甲酸与氯化稀土配合物的固相合成及性质研究 总被引:5,自引:1,他引:5
应用低温固相反应法合成了稀土氯化物和邻苯二甲酸的三种配合物,并对它们进行了组成分析、TG-DTA、红外光谱、荧光光谱和摩尔电导等的测定,确定配合物的组成为RE2(HL)3C l3.16H2O(RE=N d,Eu,T b;HL=o-C6H4(COOH)(COO-)),与文献报道的液相反应所得的产物组成不同[1,2]。从配合物的荧光激发和发射光谱可以发现,铕、铽的邻苯二甲酸配合物均具有很好的发光性能,且铽的发光性能比铕的发光性能更好。另外,溶解性实验表明配合物可以溶于水、乙醇,不溶于乙醚、丙酮。 相似文献
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The synthesis of BaMgAl10O17∶ Eu2 (BAM) phosphors using the sol-gel method and their luminescence properties were reported. The blue-light emitting BAM was synthesized using citric acid and ethylene glycol as chelating materials. Emission of blue-light was obtained from these phosphors. The luminescent intensity increases as the temperature of heat treatment is increased. This study investigated the effects of the molar ratio of ethylene glycol to citric acid (Φ value), with respect to the phase formation and luminescence properties of BAM. The variation of the Φ value resulted in the change of the sol-gel reaction mechanism and the microstructures of the resultant powders. An increase in Φ value leads to an increase in the rate of BAM phase formation. The photoluminescent intensity of the prepared phosphors increases with heating temperatures because of enhanced crystallization. 相似文献
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The possible ways and progress of infrared or red laser pumped green and blue laser emissions from a single solid state material doped by rare earth ions are outlined. The green and blue lasers realized from infrared laser pumped rare earth doped nonlinear laser crystals by means of self-frequency-conversion and from infrared laser pumped rare earth-doped bulk, fiber and microsphere materials by means of frequency upconversion are introduced in detail. Other kinds of devices and methods are also compared. The typical nonlinear laser crystals such as YA13(BO3)4, GdA13(BO3)4, YCa4O(BO3)3,GdCa4O(BO3)3, and the typical upconversion fluoride fibers are compared and analyzed. The major problems remaining to be solved and the developing trends in the area are also discussed. 相似文献
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Chung-Hsin Lu Chung-Tao Chen Baibaswata Bhattacharjee 《中国稀土学报(英文版)》2006,24(6):706-711
The synthesis of BaMgAl10O17: Eu^2+ (BAM) phosphors using the sol-gel method and their luminescence properties were reported. The blue-light emitting BAM was synthesized using citric acid and ethylene glycol as chelating materials. Emission of blue-light was obtained from these phosphors. The luminescent intensity increases as the temperature of heat treatment is increased, This study investigated the effects of the molar ratio of ethylene glycol to citric acid (Ф value), with respect to the phase formation and luminescence properties of BAM. The variation of the Фvalue resulted in the change of the sol-gel reaction mechanism and the microstructures of the resultant powders. An increase in Фvalue leads to an increase in the rate of BAM phase formation. The photoluminescent intensity of the prepared phosphors increases with heating temperatures because of enhanced crystallization. 相似文献