一例由多齿席夫碱构筑的Tb2配合物的结构、荧光性质及生物活性

使用多齿希夫碱配体 H₄L(H₄L=N'',N″-((1E,1''E)-(1,10-菲咯啉-2,9-二酰基)双(亚甲基)双(2-羟基苯甲酰肼))与 Tb(acac)₃·2H₂O反应(acac^-=乙酰丙酮根),通过溶剂热法,设计并合成了一例结构新颖的双核铽配合物[Tb₂(L)(H₂L)]·2CH₃OH·CH₃CN (1),并研究了该配合物的结构、荧光性质及生物活性。单晶X射线衍射分析表明该配合物主要含有2个TbⅢ离子和2个失去不同质子的配体离子(L^4-和H₂L^2-)。中心Tb1和Tb2离子都是九配位的,其几何构型呈现扭曲的呼啦圈形。固体荧光实验测试结果表明：该配合物在室温下表现出Tb^Ⅲ离子的荧光特征发射峰。生物活性研究表明,与配体H₄L和稀土离子相比较,配合物具有更强的抗菌活性。采用紫外可见光谱法、循环伏安法、凝胶电泳法和荧光光谱法研究了该配合物与小牛胸腺DNA之间的相互作用,结果表明配合物主要以插入作用的方式与小牛胸腺DNA结合。     

基于席夫碱配体构筑的Ln2Ⅲ配合物的结构、荧光性质及生物活性

以多齿席夫碱配体 H₂L(H₂L=(E)-N′-(3-乙氧基-2-羟基亚苄基)-3-羟基吡啶甲酰肼)为配体,与 Ln(acac)₃·2 H₂O(Ln=Tb、Ho、Er;acac^-=乙酰丙酮根)反应,通过溶剂热法,成功得到了 3例新的双核稀土配合物[Ln₂(acac)₂(L)₂(C₂H₅OH)₂](Ln=Tb (1)、Ho(2)、Er(3))。单晶X射线衍射分析表明：配合物1~3的结构主要由2个Ln^Ⅲ离子、2个乙酰丙酮根(acac^-)、2个L^2-及2个C₂H₅OH组成,中心Ln^Ⅲ离子通过2个μ₂-O原子相互连接,形成一个平行四边形的Ln₂O₂核心。固体荧光实验测试结果表明：配合物1在室温下表现出Tb^Ⅲ离子的荧光特征发射峰。此外,生物活性研究表明,与配体H₂L和稀土离子相比较,配合物1~3具有更强的抗菌活性。采用紫外光谱法、循环伏安法、凝胶电泳法和荧光光谱法研究了配合物 1~3与小牛胸腺 DNA之间的相互作用,结果表明配合物主要以插入作用的方式与小牛胸腺DNA结合。     

基于席夫碱配体构筑的LnⅢ2配合物的结构、荧光性质及生物活性

以多齿席夫碱配体H₂L(H₂L=(E)-N′-(3-乙氧基-2-羟基亚苄基)-3-羟基吡啶甲酰肼)为配体,与Ln(acac)₃·2H₂O(Ln=Tb、Ho、Er;acac^-=乙酰丙酮根)反应,通过溶剂热法,成功得到了3例新的双核稀土配合物[Ln₂(acac)₂(L)₂(C₂H₅OH)₂](Ln=Tb((1)、Ho((2)、Er(3))。单晶X射线衍射分析表明：配合物1～3的结构主要由2个Ln^Ⅲ离子、2个乙酰丙酮根(acac^-)、2个L^2-及2个C₂H₅OH组成,中心Ln^Ⅲ离子通过2个μ₂-O原子相互连接,形成一个平行四边形的Ln₂O₂核心。固体荧光实验测...     

基于香豆素N2O2配体构筑的单核铜(Ⅱ)和三核钴(Ⅱ)配合物:合成、结构及荧光性质

合成了2个通过不同的Salamo型香豆素类配体H2L1和H2L2构筑的配合物,[Cu(L1)(H2O)](1)和[Co3(L2)2(μ2-OAc)2(Me OH)2]·3CH2Cl2(2),并通过元素分析、红外光谱、紫外-可见吸收光谱、荧光光谱以及X射线单晶衍射法对其进行了表征。配合物1中配位的铜(Ⅱ)离子的空间构型是扭曲的四方锥,并且配合物1通过分子间的氢键作用形成了二聚体。配合物2中所有配位的钴(Ⅱ)离子的配位数均为六,并且3个钴(Ⅱ)离子的配位空间构型均为扭曲的八面体。同时,配合物2通过分子间的氢键作用形成了一维的超分子链状结构。此外,还分别对配体H2L1和H2L2的荧光性质进行了研究,并且通过荧光滴定实验进一步验证了配合物1和2的晶体结构。     

非对称Salamo型N2O3配体构筑的四核铜(Ⅱ)和锌(Ⅱ)配合物:合成、结构及荧光性质

合成了2个新设计的Salamo型N₂O₃配体（H₃L）构筑的四核配合物,{Cu（L）（OAc）Cu（H₂O）}₂（1）和{Zn（L）（OAc）Zn（H₂O）}₂（2）,并通过元素分析、红外光谱、紫外-可见吸收光谱、荧光光谱及X射线单晶衍射等方法对其进行了表征。配合物1由2个完全去质子化的L^3-配体单元、2个桥联的乙酸根离子和2个配位的水分子组成,形成了一种对称的四核结构。铜（Ⅱ）离子均为五配位且分别具有稍微扭曲的三角双锥和四方锥几何构型。该配合物通过C-H…π相互作用自组装而形成了一种一维链状超分子结构。而配合物2却为非对称的四核结构,由2个完全去质子化的L^3-配体单元、2个配位的水分子以及2个桥联的乙酸根离子组成。该配合物形成了一种三维超分子结构。同时,还研究了配体H₃L及配合物1和2的荧光性质。     

非对称Salamo型N2O3配体构筑的四核铜（Ⅱ）和锌（Ⅱ）配合物：合成、结构及荧光性质

合成了2个新设计的Salamo型N₂O₃配体（H₃L）构筑的四核配合物,{Cu（L）（OAc）Cu（H₂O）}₂（1）和{Zn（L）（OAc）Zn（H₂O）}₂（2）,并通过元素分析、红外光谱、紫外-可见吸收光谱、荧光光谱及X射线单晶衍射等方法对其进行了表征。配合物1由2个完全去质子化的L^3-配体单元、2个桥联的乙酸根离子和2个配位的水分子组成,形成了一种对称的四核结构。铜（Ⅱ）离子均为五配位且分别具有稍微扭曲的三角双锥和四方锥几何构型。该配合物通过C-H…π相互作用自组装而形成了一种一维链状超分子结构。而配合物2却为非对称的四核结构,由2个完全去质子化的L^3-配体单元、2个配位的水分子以及2个桥联的乙酸根离子组成。该配合物形成了一种三维超分子结构。同时,还研究了配体H₃L及配合物1和2的荧光性质。     

两例LnⅢ3配合物的构筑、晶体结构及生物活性

利用多齿席夫碱配体H₂L(H₂L=(E)-6-(羟甲基)-N''-((6-甲氧基吡啶-2-基)亚甲基)吡啶酰肼)与Ln(dbm)₃·2H₂O反应,通过溶剂热法,设计与构筑了 2例新的三核稀土配合物[Ln3(dbm)₅(L)₂(CH₃OH)₂]·CH₂Cl₂,其中 Ln=Pr (1)、Ho (2),Hdbm=二苯甲酰甲烷。单晶 X射线衍射分析表明：配合物 1与 2同构,其结构由 3个 Ln(Ⅲ)离子、5个二苯甲酰甲烷阴离子(dbm^-)、2个席夫碱配体 L^2-、2个配位的 CH₃OH及 1个结晶 CH₂Cl₂分子组成。3个中心 Ln(Ⅲ)离子通过 4个 μ₂-O原子相互连接,形成折线形的 Ln₃核。生物活性研究表明,配体H₂L、Ln(dbm)₃·2H₂O及配合物1和2均具有较好的抑菌活性。与配体H₂L及Ln(dbm)₃·2H₂O相比较,稀土配合物具有更强的抑菌活性。此外,采用紫外光谱法、循环伏安法和荧光光谱法研究了配合物1和2与小牛胸腺DNA(ctDNA)之间的相互作用,结果表明配合物主要以插入键合的方式与ctDNA结合。     

两个Gd2配合物的晶体结构及磁制冷性质

使用多齿席夫碱配体（H₂L=pyridine-2-carboxylic acid （3,5-di-tert-butyl-2-hydroxy-benzylidene）-hydrazide）分别与Gd （dbm）₃·2H₂O （Hdbm=二苯甲酰基甲烷）及Gd （NO）₃·6H₂O反应,通过溶剂热法得到了2个新的Gd₂配合物[Gd₂（L）₂（dbm）₂（C₂H₅OH）₂]（1）和[Gd₂（L）₂（HL）₂（DMF）]·2CH₃CN （2）（DMF=N,N-二甲基甲酰胺）,并对其结构与磁性质进行了系统的研究。单晶结构分析表明配合物1中的每个中心Gd(Ⅲ)离子均为8配位,其配位几何构型为略微变形的三角十二面体,相邻的中心Gd(Ⅲ)离子通过2个μ₂-O连接形成了平行四边形的Gd₂O₂核心;配合物2中的每个中心Gd(Ⅲ)离子均为9配位,其配位几何构型为扭曲的球形单帽四方反棱柱,相邻的中心Gd(Ⅲ)离子通过3个μ₂-O连接形成了三角双锥形的Gd₂O₃核心。磁性测试表明配合物1和2具有磁制冷性质,其最大磁熵变（-ΔS_m）分别为20.16 J·K^-1·kg^-1（T=2.0 K,ΔH=70 kOe）和17.14 J·K^-1·kg^-1（T=2.0 K,ΔH=70 kOe）。     

两例LnⅢ3配合物的构筑、晶体结构及生物活性

利用多齿席夫碱配体H₂L(H₂L=(E)-6-(羟甲基)-N′-((6-甲氧基吡啶-2-基)亚甲基)吡啶酰肼)与Ln(dbm)₃·2H₂O反应,通过溶剂热法,设计与构筑了 2例新的三核稀土配合物[Ln₃(dbm)₅(L)₂(CH₃OH)₂]·CH₂Cl₂,其中 Ln=Pr (1)、Ho (2),Hdbm=二苯甲酰甲烷。单晶 X射线衍射分析表明：配合物 1与 2同构,其结构由 3个 Ln(Ⅲ)离子、5个二苯甲酰甲烷阴离子(dbm^-)、2个席夫碱配体 L^2-、2个配位的 CH₃OH及 1个结晶 CH₂Cl₂分子组成。3个中心 Ln(Ⅲ)离子通过 4个 μ₂-O原子相互连接,形成折线形的 Ln₃核。生物活性研究表明,配体H₂L、Ln(dbm)₃·2H₂O及配合物1和2均具有较好的抑菌活性。与配体H₂L及Ln(dbm)₃·2H₂O相比较,稀土配合物具有更强的抑菌活性。此外,采用紫外光谱法、循环伏安法和荧光光谱法研究了配合物1和2与小牛胸腺DNA(ctDNA)之间的相互作用,结果表明配合物主要以插入键合的方式与ctDNA结合。     

两个基于β-二酮席夫碱配体构筑的银配合物的合成、晶体结构和荧光性质

在常温的条件下,分别将2个双β-二酮席夫碱配体与银盐进行配位反应得到2个银配合物,{[Ag(L₁)](SbF₆)}_n(1)和[Ag₂(L₂)2₂](BF₄)₂(2)(L₁=1,3-bis(4-methylamino-pentan-2-one)phenyl,L₂=1,3-bis(3-methylamino-1-phenyl-butan-1-one)phenyl),并通过元素分析、红外光谱、粉末X射线衍射分析、单晶X射线衍射等对其结构进行了表征。结构分析表明,在配合物1中,银离子与配体L₁中的2个碳原子和2个氧原子配位,形成一维链状结构,而配合物2中银离子与L₂配体中的2个氧原子和2个碳原子配位,最终得到双核二聚体结构。化合物1和2都通过阴离子与结构单元之间的C-H…F作用,最终形成三维超分子结构。此外,我们还研究了化合物1、2以及配体的荧光性质。     

Synthesis, structure, and magnetism of Tb4PdGa12 and Tb4PtGa12

Single crystals of Tb₄MGa₁₂ (M=Pd, Pt) have been synthesized. The isostructural compounds crystallize in the cubic space group , with Z=2 and lattice parameters: a=8.5940(5) and 8.5850(3) Å for Tb₄PdGa₁₂ and Tb₄PtGa₁₂, respectively. The crystal structure consists of corner-sharing MGa₆ octahedra and TbGa₃ cuboctahedra. Magnetic measurements suggest that Tb₄PdGa₁₂ is an antiferromagnetic metamagnet with a Néel temperature of 16 K, while the Pt analog orders at T_N=12 K.     

水杨醛缩2-芴胺席夫碱的合成、晶体结构及生物活性

芴在煤焦油中的含量为1%～2%,全国每年可从中提取1.4万吨芴.芴是一种带有荧光的片状化合物,作为一种新型的发光材料主要用于制备芴基金属化合物、有机光导体、树脂、染料、Ziegler-Natta催化剂的给电子体等.     

Ciprofloxacin@SiO2: Fluorescent nanobubbles

We report a new nanomaterial in which ciprofloxacin molecules are incorporated inside silica nanobubbles, denoted as ciprofloxacin@SiO₂. The material has been characterised using UV/Vis absorption spectroscopy, transmission electron microscopy, cyclic voltammetry, and emission spectroscopy. The material is stable and the freestanding particles can be precipitated and redispersed in several solvents. Confinement of the molecule is complete as leaching through the shell is minimal. The material behaves like free ciprofloxacin in solution; however, effects of confinement are manifested. Energy transfer reaction between ciprofloxacin@SiO₂ and Tb₃₊ was monitored by emission spectroscopy. The emission intensity decreased with metal ion exposure indicating selective electronic interaction. Dedicated to Professor C N R Rao on his 70th birthday     

Crystal structures and magnetic properties of CeAu4Si2 and CeAu2Si2

Single crystals of CeAu₄Si₂ and CeAu₂Si₂ have been grown out of ternary fluxes rich in Au, and the former, also by sintering the stoichiometric composition at 750 °C. The single-crystal X-ray refinement result for CeAu₄Si₂ is orthorhombic, Cmmm (No. 65, Z=2), different from a tetragonal result found from an X-ray powder diffraction refinement [H. Nakashima, et al., J. Alloys Compds. 424 (2006) 7]. For CeAu₂Si₂, this is the first report of the stoichiometric crystalline phase, in the known tetragonal I4/mmm structure. The anisotropic field- and temperature-dependent magnetizations, as well as specific heat and resistivity data are compared. Although both compounds have related structural packing, they present unique magnetic features. CeAu₂Si₂ is a typical antiferromagnet with T_N=8.8(1) K and CeAu₄Si₂ features a ferromagnetic component below T_c=3.3(1) K. Both phases have effective moments close in value to that of free Ce³⁺.     

Crystal structure and vibrational properies of Rb2MgWO2(PO4)2—A new framework phosphate

The new compound Rb₂MgWO₂(PO₄)₂ has been synthesized and characterized by a single-crystal X-structure determination, and IR and Raman spectroscopic studies. The crystal structure is orthorhombic, space group Pbca, with the unit cell dimensions a=9.891(2), b=12.641(2), , Z=8. Compared to the K₂M^IIWO₂(PO₄)₂ series, where M^II=Mg, Mn, Fe, Co, Ni, and Cd, the volume of the unit cell in the present compound is nearly doubled. The MgO₆ and WO₆ octahedra are arranged into polyhedral groups consisting of two edge sharing MgO₆ joined by corners with two WO₆ octahedra. These groups are interconnected through the PO₄ tetrahedra into layers in a×b plane. The Rb⁺ ions perform thermally activated displacements within the cavities formed between the polyhedral layers. The origin of various Raman and IR modes is discussed. These results indicate that a clear energy gap exists between the stretching and remaining modes. The most intense modes are shown to be due to vibrations of the W-O bonds.     

Crystal structure of BaMg2Si2O7 and Eu luminescence

Crystal structure of BaMg₂Si₂O₇ was determined and refined by a combined powder X-ray and neutron Rietveld method (monoclinic, C2/c, no. 15, Z=8, a=7.24553(8) Å, b=12.71376(14) Å, c=13.74813(15) Å, β=90.2107(8)°, V=1266.44(2) Å³; R_p/R_wp=3.38%/4.77%). The structure contains a single crystallographic type of Ba atom coordinated to eight O atoms with C₁ (1) site symmetry. Under 325-nm excitation Ba_0.98Eu_0.02Mg₂Si₂O₇ exhibits an asymmetric emission band around 402 nm. The asymmetric shape of the emission band is likely associated with a small electron-phonon coupling in BaMg₂Si₂O₇. The integrated intensity of the emission band was observed to remain constant over the temperature range 4.2-300 K.     

一维双核锌配合物[Zn2(SHSH)2(2-Me-py)2]的合成、晶体结构及理论研究

The crystal of one-dimensional binuclear zinc complex [Zn₂(SHSH)₂(2-Me-py)₂] was obtained in DMF and 2-methylpyridine, where SHSH is salicylaldehyde salicylhydrazone. It has been characterized by IR, UV, element analysis and X-ray diffraction analysis. The crystallographic data were as follows: monoclinic system, space group P2₁/c, a=1.144 49 nm, b=1.206 69 nm, c=1.379 39 nm, β=97.039°, Z=2, V=1.890 6 nm³, M_r=825.47, D_c=1.450 g·cm^-3, μ=1.324 mm-1, F(000)=848 and the final R=0.033 6 and wR=0.094 7 for 3 752 observed reflections with I≥2σ(I). The theoretical investigation of title complex as a structure unit was carried out at B3LYP/6-31G and HF/6-31G levels with Guassian 03W program, and the atomic charges, natural bond orbital analysis and bond energies were also discussed. CCDC: 260920.     

Synthesis, structure and magnetic properties of new vanadate PbCo2V2O8

A new vanadate PbCo₂V₂O₈ was obtained through the study of PbO-CoO-V₂O₅ ternary system. The crystal structure was determined by Rietveld method, indicating that PbCo₂V₂O₈ has a tetragonal structure of space group I41cd with a spiral chain along the c-axis. Magnetic properties of the titled compound were investigated by means of susceptibility, magnetization, and heat capacity measurements. The results show that PbCo₂V₂O₈ is a quasi-one-dimensional canted antiferromagnet with Neel temperature of ∼4 K, being consistent with its crystal structure.     

A new structure type of phosphate: Crystal structure of Na2Zn5(PO4)4

A new compound, Na₂Zn₅(PO₄)₄, was identified in the system ZnONa₂OP₂O₅ and high-quality crystal was obtained by the melt method. The crystal structure of this compound was solved by direct method from single crystal X-ray diffraction data. The structure was then refined anisotropically using a full-matrix least square refinement on F² and the refinement converged to R₁=0.0233 and wR₂=0.0544. This compound crystallizes in the orthorhombic system with space group Pbcn, lattice parameters a=10.381(2) Å, b=8.507(1) Å, c=16.568(3) Å and Z=4. The structure is made up of 3D [Zn₅P₄O₁₆]_n²ⁿ⁻ covalent framework consisting of [Zn₄P₄O₁₆]_n⁴ⁿ⁻ layers. The powder diffraction pattern of Na₉Zn₂₁(PO₄)₁₇ is explained by simulating a theoretical pattern with NaZnPO₄ and Na₂Zn₅(PO₄)₄ in the molar ratio of 1:4 and then by Rietveld refinement of experimental pattern. Na₂Zn₅(PO₄)₄ melts congruently at 855 °C and its conductivity is 5.63×10⁻⁹ S/cm.