Eu(DMBM)_2(2,2′-bipy)NO_3的合成与荧光光谱

本工作首次合成了Eu(DMBM)_2(2,2′-bipy)NO_3(DMBM=二对甲氧基苯甲酰甲烷,2,2′-bipy-2,2′-联吡啶)。通过元素分析、热谱、电导率、红外和拉曼光谱、质子核磁共振谱对所合成化合物进行了表征。在77K测定了固体配合物的激发光谱和发光光谱。光谱数据说明配合物含有两种Eu(Ⅲ)格位。配合物中三种配体在Eu(Ⅲ)周围的分布情况略有不同,显示出不同的晶体场效应。光谱数据表明,配合物中Eu(Ⅲ)格位属于非中心对称的点群C_1或C_3或C_2。     

长链羧酸铕四元配合物的合成及其发光性质

合成了铕与长链羧酸、二苯甲酰甲烷、邻菲啰啉形成的四元配合物,用元素分析、红外光谱、核磁共振氢谱和紫外光谱对所合成的铕四元配合物进行了表征。由于长链羧酸的引入,铕配合物在氯仿等挥发性有机溶剂中具有良好的溶解性,这为今后与高分子基体复合创造了条件。铕配合物在342nm光波激发下,发出以铕的特征发射谱线612nm左右为主的强荧光。     

苯丙烯酸邻菲罗啉铕钇配合物的合成及荧光特性

在乙醇介质中，合成了标题化合物，测定了其组成，红外光谱及荧光光谱，结果表明，羧酸的羟基氧及邻菲罗啉中的氮原子均与稀土离子配位，铕钇配合物的荧光强度值高于铕配合物。     

Molar volume and ultrasonic studies of europium soaps in mixed organic solvents

The ultrasonic velocity and density measurements of europium soaps in a mixture of benzene and methanol (3:2, vol/vol) were used to evaluate various acoustic parameters and molar volume and to determine the critical micelle concentration. The results showed that the ultrasonic velocity, specific acoustic impedance, molar sound velocity, and molar compressibility increase, and intermolecular free length, adiabatic Compressibility, and relative association decrease with increasing concentration and chainlength of the soap. The results were interpreted in terms of soap-solvent interaction.     

Gd_3Al_5O_(12)∶Eu~(3 )柠檬酸盐硝酸盐燃烧法合成及其发光性能研究

采用柠檬酸盐硝酸盐燃烧法,在较低的温度(900℃)下成功地合成单一晶相Gd3Al5O12∶Eu3 发光粉体,紫外激发荧光光谱分析表明,粉体615 nm和593 nm荧光发射源于Eu3 的5D0-7F2和5D0-7F1跃迁.该方法中各工艺条件(如pH值、柠檬酸/金属离子比、煅烧温度)对Gd3Al5O12∶Eu3 发光性能均有影响,通过试验得出了获得最佳发光性能荧光粉体的工艺参数.     

掺铕铌酸锂晶体的M■ssbauer谱

测量了Ｅｕ：ＬｉＮｂＯ_３和（Ｅｕ，Ｍｇ）：ＬｉＮｂＯ_３的Ｍｓｓｂａｕｅｒ谱，并对数据进行了拟合。根据拟合结果和ＬｉＮｂＯ_３晶体结构的特征，讨论了Ｅｕ~（３＋）在晶格中的占位，并以Ｅｕ~（３＋）的参数为探针．讨论了Ｍｇ（２＋）在晶格中的占位。     

Synthesis and luminescent properties of Eu~(3+)-doped Na_(24)As_2W_(22)O_(83)

The Eu3+-doped Na24As2W22O83 phosphor has been prepared by solid state reaction from Na3AsO412H2O, Na2WO4 2H2O and WO3, and characterized by elemental analysis, infrared spectroscopy and powder X-ray diffractometry. According to the measurements with X-ray diffraction, this material belongs to orthorhombic system with its lattice constants: a = 1.4750 nm, b = 1.1944 nm, c = 1.1062 nm, it is consistent with space group D24-P212121 (No.19). The emission and excitation spectra were measured. The luminescent properties of Eu3+-doped Na24As2W22O83 and mechanism of energy transfer were discussed.     

硼酸镧钙中三价铕离子的辐射跃迁参数

采用高温固相法合成了三价铕离子掺杂的硼酸镧钙(La2CaB10O19:Eu3+)荧光粉,XRD测试表明样品属单斜晶系。La2CaB10O19:Eu3+可被近紫外和蓝光LED有效激发,发射主峰位于617nm处,对应铕离子的5 D0!7F2跃迁。Judd-Ofelt强场参数表明,在La2CaB10O19:Eu3+样品中三价铕离子周围环境具有较强的共价性和反演非对称性。计算得5 D0!7FJ(J=1,2,4)的自发辐射跃迁概率分别为80.95、155.46和41.21s-1,最大受激发射截面分别为3.05×10-22、7.41×10-22和3.00×10-22cm2。有效的红光发射表明,La2CaB10O19:Eu3+荧光粉可以作为红色荧光色彩调节剂应用于白光LED。     

Eu(1-X)LnX(TTA)3Phen荧光配合物的原位合成和光固化荧光防伪油墨的性能研究

在EA基质中,合成了Eu(1-X)LnX(TTA)3Phen配合物(Ln=G d、Y和L a,TTA=噻吩甲酰三氟丙酮,Phen=1,10邻-菲咯啉,X=掺杂元素的摩尔分数)。红外光谱的分析表明,配合物的吸收峰被EA(EA=双酚A-环氧丙烯酸酯)基质掩盖,表现为EA的特征吸收;荧光激发光谱、荧光发射光谱的研究表明,在EA基质中Eu(1-X)LnX(TTA)3Phen配合物已经形成,并且表现出强的铕离子特征荧光。荧光体系经固化后的荧光强度明显低于固化前的荧光强度,并讨论了荧光猝灭机理。     

Preparation and Luminescent Properties of Eu^3＋ Doped Calcium Phosphate Nanocrystalline

The nanocrystalline Eu^3＋ doped calcium phosphate was prepared by calcining precursors, which were got by precipitation method combined with ultrasound treatment and some polysaccharide. The existence of Eu^3＋ inhibited the reaction of Na^＋ ion and SO4^2- radical with apatite and resulted in the transformation of HAP to β- TCP by replacing the calcium ions. The strongest excitation peak was at 393 nm, and other lower peaks were at 361 nm, 375 nm, 381 nm, 418nm. The strongest emission spectrum appeared at about 618nm. The emission peak （579 nm） showed that Eu^3＋ ions distributed on Ca^2＋ sites of the apatitic structure.