Interaction between Eu(bpy)_3^(3+) Complex and DNA by Fluorophotometry

The interaction of complex Eu(bpy)_3 (3+) with DNA was studied by fluorophotometry. The binding constant ( K ) and size ( n ) of the binding site were calculated according to the changes of the fluorescent intensity at the adding process of DNA. The model for the complex Eu(bpy)_3 (3+) interacted with DNA solution is found to be electrostatic action. The system Eu(bpy)_3 (3+)-DNA was studied by the voltammetry. The interaction of the complex Eu(bpy)_3 (3+) with the calf thymus DNA was investigated by fluorophotometry,then K and n were obtained.

配合物[Eu(Ⅲ)(TFPB)_3bpy]的晶体结构和发光性质(英文)

The crystal structure of Eu(TFPB)3bpy [TFPB: 4,4,4-trifluoro-1-phenyl-1,3- butanedione, bpy: 2,2′-bipyridyl] has been determined by single crystal X-ray diffraction and the coordination geometry of Eu atom is a square antiprism. The complex can give the characteristic luminescence of Eu3+ upon UV excitation. CCDC: 224879.

Photophysical Property of Ternary Complex Eu(DPHA)_3·Phen·2H_2O

One ternary complex of europium with the plant growth regulator HDPHA (2-Hydroxydiphenyl acetic acid) and Phen (1,10-Phenanthroline), Eu(DPHA) 3·Phen·2H 2O, was synthesized and characterized by the elemental analysis and DTA-TG measurement. The photophysical property of the complex was investigated by means of IR spectra, Raman spectrum and laser-exited, high-resolved excitation and emission spectra as well as time-resolved luminescence spectra. The luminescence spectra reveal four Eu 3+ sites with energy difference within 25 cm -1 and local symmetries of C 1 or C 2 or C s in the complex. The energy transfer among the Eu 3+ sites is observed. The 7F J sublevel splitting of the Eu 3+ ion is discussed.

Eu(TTFA)_3掺杂SiO_2胶体球的制备与荧光光谱特性

制得了稀土配合物Eu（TTFA）3掺杂的SiO2胶体球，并用透射电子显微镜（TEM）和荧光分光光度计对其形貌和荧光光谱特性进行了详细地研究。TEM形貌分析表明，掺杂SiO2胶体颗粒具有球状的外形和光滑的表面，平均直径约为300nm。荧光光谱分析表明，该稀土配合物掺杂胶体颗粒具有Eu^3＋离子典型的荧光光谱特性，荧光寿命约为290μs。进一步分析实验数据，发现在Eu（TTFA）3掺杂浓度为质量分数0．5～1．5的范围内，荧光强度随着掺杂浓度的增加而增加，而荧光寿命几乎不随掺杂浓度而变化。

复合沉淀法制备(Y,Gd)_2O_3:Eu纳米粉体及其发光性能

报道了一种采用氨水和碳酸氢铵的混合溶液作为复合沉淀剂来制备(Y,Gd)2O3:Eu发光粉体的新工艺.采用热分析(TG-DTA)、红外光谱(FT-IR)、X射线衍射(XRD)、扫描电镜(SEM)、透射电镜(TEM)等手段对粉体制备过程中的物理化学变化进行了研究.通过X射线激发的发射光谱研究了Eu掺杂浓度和煅烧温度对(Y,Gd)2O3:Eu粉体发光性能的影响.结果表明采用复合沉淀法制备工艺,经过850℃煅烧2h,可以得到晶粒尺寸为50nm左右,且基本无团聚的(Y,Gd)2O3:Eu粉体,比表面积为23m2/g,其X射线激发的发光强度较草酸盐沉淀法所得到的相同组分的粉体大大增强.

稀土配合物前驱体热分解法合成Y_2O_3:Eu^(3+)纳米材料

Nano Y2O3:Eu3+ fluorescence powder was prepared by thermal decomposition of the rare earth citric acid complexes.The structure,size,morphology and luminescent properties of fluorescence powder were investigated by means of XRD and TEM.The results show that the crystal structure of nano Y2O3:Eu3+fluorescence powder is cubic,and the size of the particles is between 20 nm and 60 nm.The phosphors has the maximum excitation peak at 248 nm,and the maximum emission peak at 615 nm.

纳米晶LaAlO_3掺Eu^(3+)的复合沉淀法制备及发光性质

以NH3·H2O-NH4HCO3混合溶液为复合沉淀剂,制备了LaAlO3∶Eu3+纳米晶体.通过X射线衍射、扫描电镜和透射电镜对产物进行了表征,用荧光光度计测试了样品的三维荧光光谱、激发光谱和发射光谱.结果表明:前驱沉淀物经800℃焙烧处理2h,制备出球型形貌,颗粒分散性好、尺寸约为40nm的立方相LaAlO3纳米晶.由三维荧光光谱确定了LaAlO3∶Eu3+的最佳监测波长和激发波长,在395nm波长光的激发下观察到纳米LaAlO3中Eu3+的591nm(5D0-7F1)和613nm(5D0-7F2)特征发射谱,磁偶极跃迁5D0-7F1的发射峰强度要比电偶极跃迁5D0-7F2更强,而且这种趋势随着焙烧温度的升高明显增强,说明由该法制备的纳米LaAlO3中Eu3+离子占据的位置具有高的对称性.

一种新的铕配合物Eu(BTI)_3DPPZ的合成及光致发光

合成并表征了可溶性双(硫代磷酰基)亚胺铕配合物Eu(BTI)3DPPZ,在挥发性溶剂中具有好的溶解性,TG表明它具有较高的热稳定性。在345nm的激发波长下,Eu(BTI)3DPPZ的最强发射波长在612nm,这是铕离子的特征发射谱线,归属于5D0→7F2。从发光强度来看,Eu(BTI)3DPPZ的光致发光产生了较强的红光。

可聚合稀土荧光配合物Eu(MAA)_3Phen的制备及表征

以甲基丙烯酸为第一配体、邻菲罗啉为第二配体、铕离子为中心离子,合成一种可聚合稀土荧光配合物单体,通过元素测试、FT-IR对其组成、结构进行分析,证明配合物中含有能够进行聚合反应的双键,并确定其结构式为Eu(MAA)3Phen.通过TGA和溶解性测试对配合物性能进行研究,结果表明:配合物具有良好的热稳定性,初始分解温度达到297℃;配合物溶解性能良好,可溶于常见极性溶剂.采用荧光分光光度计测试配合物的荧光性能,结果表明其具有较高的荧光强度和色纯度,可作为一种高效的稀土红光材料.

基于Ce(Ⅳ)-Ru(bpy)_3^(2+)化学发光体系测定盐酸雷诺嗪

在0.12mol·L^(-1)硫酸介质中,由1.0×10^(-3)mol·L^(-1)硫酸铈溶液与2.0×10^(-4)mol·L^(-1)Ru(bpy)_3^(2+)溶液反应产生的化学发光强度因盐酸雷诺嗪的存在而明显增强。试验表明:盐酸雷诺嗪的质量浓度在0.1～2.0mg·L^(-1)及2.0～10.0mg·L^(-1)两范围内分别与相应的化学发光强度的增强值之间呈线性关系。方法的检出限(3S/N)为0.062mg·L^(-1)。试验及分析中采用Sirius V3.1化学发光仪。反应时,上述两试剂溶液及样品溶液的进样顺序及引入的体积依次为:硫酸铈溶液50μL,Ru(bpy)_3^(2-)溶液50μL及样品溶液10μL。反应4s后发光强度达到最大值。在模拟样品基体中,分别加入0.250,0.500,0.750g盐酸雷诺嗪标准品进行回收试验,测得回收率在97.6%～102.4%之间,测定值的相对标准偏差(n=10)均小于2%。

红色荧光配合物Eu(NO_3)_3(Phen)_2的晶体结构

合成了红色荧光配合物Eu(NO3)3(Phen)2并测定了其晶体结构.配合物属单斜晶系,Cc(#7)空间群.晶胞参数为:a=1.1161(2)nm,b=1.7963(4)nm,c=1.3042(3)nm,α=90.00(0)°,β=100.57(3)°,γ=90.00(0)°.晶胞体积V=2.5704(9)nm3,Z=4.晶体密度Dc=1.805g·cm-3.最终的偏离因子R=0.0293.中心Eu3+离子为10配位,配位原子分别为3个NO3-根的6个氧原子和2个中性螯合配体Phen的4个氮原子,构成高度畸变的双冠四方反棱柱体,或双冠四边形顶蝶形底扭棱柱体.

用时间分辨荧光光谱研究微环境对Eu(TTA)_3和Eu(DB)_3发光的影响

应用时间分辨荧光光谱方法研究了微环境对Eu^(3+)络合物发光的影响,测定了NCS^-对Eu(TTA)_3和Eu(DB)_3的荧光猝灭。实验表明,Eu^(3+)的~5D_0能级弛豫速率K_0随NCS^-的引入而增大,NCS^-离子导致的微环境变化,影响了Eu^(3+)的Laporte选择规则,改变了Eu^(3+)与配位体间相互作用的程度。

茂铁基多核配合物猝灭Cr(bpy)_3^(3+)发光过程研究

在过去的十年内,过渡金属联吡啶配合物的光物理和光化学过程得到了迅速发展,激发态的形成及其决定因素在几类经典的配合物中得以很好的研究,尤其是对d^3组态Cr(bpy)_3^(3+)和d^6电子组态Ru(bpy)_3^(2+)的研究尤为突出.二茂铁及其衍生物一直是有机金属化学研究的重要对象.其对Cr(bpy)_3^(3+),Ru(bpy)_3^(2+)等发光剂猝灭作用对分子器件的基础研究具有重要意义.为此,本文合成了一系列含茂铁基多核配合物,并研究了其对Cr(bpy)_3^(3+)发光过程的猝灭作用.

A Lanthanide-transition Metal Coordination Polymer:{[CuEu(Hbidc)_2(H_2O)_4]·H_2O}_n(H_3bidc=1H-benzimidazole-5,6-dicarboxylic Acid)

The title complex 1,{[CuEu（Hbidc）2（H2O）4]·H2O}n（H3bidc = 1H-benzimidazole-5,6-dicarboxylic acid）,has been solvothermally synthesized and structurally characterized by single-crystal X-ray diffraction.Complex 1 crystallizes in triclinic,space group P1,with a = 7.791（2）,b = 12.058（3）,c = 12.109（3）,α = 82.189（5）,β = 72.407（5）,γ = 89.184（4）°,V = 1073.7（5）3,C18H18CuEuN4O13,Mr = 713.86,Dc = 2.208 g/cm3,μ（MoKα） = 3.967 mm-1,F（000） = 700,GOOF = 0.950,Z = 2,the final R = 0.0531 and wR = 0.1068 for I 2σ（I）.Complex 1 possess a tape-like chain structure consisting of Eu2C8O4 and Cu2Eu2C18N4O4 metallic rings alternatively arranged and is the first 3d-4f heterometallic complex based on the 1H-ben-zimidazole-5,6-dicarboxylato ligand（Hbidc）.Plenty of hydrogen-bonding and π...π stacking interactions connect the 1D chains to construct a 3D supramolecular architecture.

Eu(Ⅲ)(EB)_3配合物与DNA的相互作用模式研究

应用荧光光谱法得Eu(Ⅲ)(EB)3配合物与DNA可形成摩尔比为41的复合物,通过磷酸盐实验与阴离子猝灭剂实验可知其相互作用为混合模式,包括嵌插作用、沟渠作用和静电作用。由双倒数法求得ΔrHmΘ=1.11×105 J/mol,ΔrGmΘ28℃=-3.24×104 J/mol,ΔrSmΘ28℃=475.08 J/(mol.K),可知该反应为熵驱动反应。

Influence of Molten Salt on Luminescent Intensity and Particle Size of Y_2O_3:Eu^(3+) Phosphor

The Y-Eu oxalate precursor was prepared with a homogeneous precipitation method. And the additives, Na2CO3, S, NaCl or their combination, were introduced into the precursor to prepare Y2O3 ：Eu^3＋ red phosphors at 1000 1300 ℃ for 2 h. The effect of molten salts on particle size and luminescent intensity was studied. The experimental results showed that the complex molten salt （Na：CO3 ＋ S ＋ NaCl） was conductive to enhance the luminescent intensity of Y2O3 ：Eu^3＋. The emission intensity of the phosphor prepared with these additives at 1300 ℃ was about 45% higher than that of the one prepared without molten salt, and about 11% higher than that of the corresponding commercial phosphor. Meanwhile, the particle size of Y2O3 ：Eu^3＋ phosphor was controlled effectively with the molten salt.

Voltammetry and fluorescence studies on the interaction between Eu(phen)_3^(+3)and DNA

The binding mode of Eu(phen)_3^(3+) with DNA is studied by fluorescence andvoltammetric methods. From the Scatchard graph and the fluorescence quenching phenomenon, it isconcluded that the mode of interaction between Eu(phen)_3^(3+) and DNA is intercalation bind byinserting the phen pi-pi conjugate surface between the base pairs of the DNA duplex. Voltammetry wasused to confirm the results obtained from the fluorescence method, the result from both methodsagrees with each other. The binding constant (K) and the binding site size (n_s) were calculatedfrom voltammetric data such as the shifts in potential and limiting currents in the process ofadding DNA, according to the positive shifts of peak potential. It was considered that the complexof the +2 ion interacted more favorably with the nucleotide bases than that of the +3 ion byhydrophobic interaction.

Synthesis and Structural Investigation of （LaO）_3BO_3 with Eu^（3＋） as Luminescent Probe

Europium (Eu￣(3+)) doped polycrystalline (LaO)_3BO_3 has been synthesized by solid state reaction with Li_2CO_3 as flux at 1200℃ for 10 h in air. X- ray powder diffraction shows that ( LaO)_3BO_3 crystallizes in a monoclinic cell [a= 0. 69214 (9)nm , b=1. 2929(3) nm , c=1. 4590 (3 ) nm . β= 99. 35 (2)°,V= 1. 2882(4 ) nm￣3 and Z= 8] with a possible space group of P2_1/m or P2_1. The predominance of electric-dipole transition ￣5D_0→ ￣7F_2 in the fluorescence spectrum , as well as the splitting of the￣7F_j ground states of Eu￣(3+) reveals that the lanthanum atoms distribute in the sites with C_1 or C_s symmetry in this structure.

Synthesis, Characterization and Properties of N,N′-Bis(6-methyl-2-pyridine-N-oxide)-1,3-Propane and Europium and Terbium Complexes

A new ligand, N,N′-Bis(6-methyl-2-pyridine-N-oxide)-1,3-propane (L), and some binary lanthanide complexes (Ln=Eu^(3+), Tb^(3+)) were synthesized and characterized in detail. The composition of the binary complexes was determined as LnL(NO_3)_3. They are 1∶1 electrolytes in DMF. The complexes have strong characteristic line fluorescence emission spectra, and it is also found that TbL(NO_3)_3 complex has stronger luminescence intensity than EuL(NO_3)_3 in solid state and in methanol.

Triboluminescent Complexes of Rare Earth Ⅱ.Mixed-ligand Complexes of Eu^(3+) with Thenoyltrifluoroacetone and Pyridine-N-Oxide or its Substitutive Derivatives

Five triboluminescent mixed-ligand complexes of Eu^(3+)with thenoyltrifluoroacetone(TTA)and pyridine-N-oxide or its substitutive derivatives have been prepared.They are all pale yellow crystalline com- pounds with the formula of Eu(TTA)_3·L(L=py NO.2-pie NO,3-pie NO,4-pic NO,bipy N_2O_2).Their physico-chemical properties have been studied with conductometry,UV and IR absorption and fluorescence spectroscopy.Once the complexes are touched or rubbed by a glass rod,they emit strong red triboluminescent light which is similar to the characteristic fluorescence of Eu^(3+).