新颖四核镍夹心的杂化锗钨酸盐的合成、结构与表征

在水热条件下合成了一个新颖的夹心结构四核镍有机-无机杂化锗钨酸盐[Ni(dien)(H2O)3]2·[Ni(Hdien)2]{[Ni(dien)]2Ni4(H2O)2(GeW9O34)2}·10H2O(1), 利用X射线单晶衍射确定了其结构, 并通过红外光谱、热重、X射线粉末衍射、X射线能谱和元素分析对其进行了表征. 其晶体属三斜晶系, P1, a=1.1937(3) nm, b=1.4323(3) nm, c=1.6394(4) nm, α=93.424(2)°, β=96.058(3)°, γ=109.758(4)°, V=2.6094(1) nm3,Z=1. X射线单晶衍射结果表明, 化合物1是由夹心构型的多阴离子通过镍-二乙烯三胺配阳离子连接形成的一维线性结构.     

4-(4′-吡啶)-1,3-二硫代环戊烯-2-酮双核铜(Ⅱ)配合物的合成与晶体结构

用溶液法合成了4-(4′-吡啶)-1,3-二硫代环戊烯-2-酮(C8H5NOS2)与铜(Ⅱ)的配合物,并得到了单晶.通过红外光谱、元素分析和X射线单晶衍射分析对配合物的组成和结构进行了表征.X射线单晶衍射分析表明:配合物属三斜晶系,空间群P-1,是由2个CuSO4、4个配体C8H5NOS2分子、2个配位H2O和6个游离的H2O组成的双核配合物.配合物分子通过S…S短程作用形成了1个二维层状结构,并通过分子间的氢键作用进一步形成了更稳定的三维结构.     

两种5-氯水杨酸铬(Ⅲ)配合物的合成及反应性研究

合成了两种5-氯水杨酸铬(Ⅲ)配合物[Cr(Ⅲ)(5-Cl-SA)(en)2]Cl·2CH3OH·2H2O(Ⅰ)和[Cr(Ⅲ)(5-Cl-SA)(TETA)]-ClO4·H2O(Ⅱ)(5-Cl-SA=5-氯-水杨酸,en=乙二胺,TETA=三乙烯四胺),利用X射线晶体衍射和元素分析进行了结构表征.通过光谱手段比较了两种...     

基于苯四甲酸和双(咪唑基甲基)苯配体的三维Cd-MOF的合成、结构及荧光性质

选择刚性的1,2,4,5-均苯四甲酸(H4L)为主配体,以1,3-双(1H-咪唑-1-基甲基)苯(1,3-bib)为辅助配体,在水热条件下,与过渡金属离子Cd2+配位合成了配合物[Cd(L)0.5(1,3-bib)(H2O)]·H2O (1).利用元素分析、红外光谱、X射线单晶衍射、热重和X射线粉末衍射对其结构进行了表...     

X射线衍射单晶测试中晶体移位处理暨二亚胺衍生物结构解析研究

X射线单晶衍射是测定晶体结构的有力手段。但是X射线单晶衍射测试对样品质量要求高,为达到足够的数据完整度测试时间长,期间容易出现意外情况如晶体发生移动或者变质,温度发生变化等。(2E,3E)-N²,N³-二(4-甲基-2,6-二-((R)-1-苯乙基)苯基)丁烷-2,3-二亚胺晶体的X射线衍射测试被选取作为例子,详细阐述了X射线衍射测试过程中晶体意外移动的判断方法和应对手段,成功修正了数据并完成了结构精修,同时,第一次报道了该二亚胺衍生物晶体结构并上传剑桥晶体学数据库(CCDC索引号：2079144),并确认了产物R型绝对构型。     

由2,6-吡啶二羧酸根构筑的两种铈(Ⅳ)配合物的合成、结构及热性质

采用水热法合成了2种铈(Ⅳ)配合物[Ce(dipic)3]·(H2bipy)·4H2O(1)和[Ce(dipic)3]·(H2bpa)·3.5H2O(2)(2,6-H2dipic=2,6-吡啶二羧酸,bipy=4,4′-联吡啶,bpa=二(4-吡啶基)胺),并通过X射线单晶衍射、元素分析、FTIR及热重分析对其结构和组成进行了表征。单晶衍射结构表明:配合物1和2的晶体都属于三斜晶系,P1空间群。配合物的中心金属铈(Ⅳ)离子被3个完全去质子化的2,6-吡啶二羧酸根环绕,配体2,6-吡啶二羧酸的羧基均以单齿形式配位。热分析表明2个配合物在64和50℃开始发生分解。     

杂金属配位聚合物[Ln2Zn2(2,5-pydc)5(H2O)2]·4H2O的合成、结构及发光特性

采用水热法通过Ln2O3、Zn(CH3COO)2·2H2O与2,5-吡啶二羧酸为配体的反应合成出两个新型三维杂金属配位聚合物[Ln2Zn2(2,5-pydc)5(H2O)d·4H2O (Ln=Sm(1),Eu(2);2,5-pydc:2,5-吡啶二羧酸).通过元素分析、红外光谱、X射线粉未衍射方法以及X射线单晶衍射方法对配合物进行了表征.结构分析表明,配合物1和2的结构是相同的,其晶体均为单斜晶系,空间群为P21/C.配合物1和2中2,5-吡啶二羧酸配体共有两种配位方式.通过配位模式Ⅰ连接Ln和Zn形成二维层状结构;而层与层之间通过配位模式Ⅱ进一步连接起来形成三维复杂网状结构.此外,还对配合物的荧光性质和热分解过程进行了详细分析.荧光分析表明,金属Zn的引入有效增强了配合物中稀土金属的发光.     

Cd(Ⅱ)双苯吡唑基吡啶-草酸混配合物的合成、结构与性质

合成了Cd(Ⅱ)与类蝎型吡唑衍生物和草酸的混合配体的配合物[Cd2(HL)2(ox)]·1.5H2O(H2L=2,6-二(5-苯基-吡唑-3-基)吡啶,H2ox=草酸)。 通过元素分析、红外光谱、紫外光谱、X射线粉末衍射(PXRD)和X射线单晶结构分析确定了配合物的结构。 配合物晶体属于三斜晶系、P-1空间群,Cd(Ⅱ)是六配位,由一个ox2-基中的2个O原子和来自2个HL-中的4个N原子配位,构成变形八面体配位构型,而相邻Cd(Ⅱ)原子间均通过HL-上的N原子和草酸根分别连接形成2条互不相交的一维无限链状结构。 性质测试结果表明,该配合物具有良好的热稳定性和荧光特性,对环己烷氧化反应也具有一定的催化活性。     

杂金属杯[4]配位聚合物的合成与表征（英文）

合成了4个杂金属杯[4]配位聚合物{[Cd(L)(tpa)]·3H_2O}n(1),{[Zn_2(L)_2(tpa)_2]·3H_2O}n(2),{[Co(L)(oba)]·2DMA·0.5H_2O}_n(3)和{[Zn(L)(oba)]·DMA}n(4)(L=2-(1H-咪唑基-甲基)-6-(3-(1H-咪唑基-甲基)-5-叔丁基-2-羟基)苄基-4-叔丁基苯酚,H2tpa=对苯二甲酸,H2oba=4,4′-二苯醚二甲酸),并通过元素分析、热重、红外光谱、固态紫外、单晶X射线衍射和粉末X射线衍射对其进行了表征。单晶结构分析表明晶体1是单斜晶系,P21/n空间群,而晶体2,3和4均为三斜晶系,P1空间群。化合物1,2,3和4是由0维[M(N_4O_2C_(29)H_(36))](M=Zn,Co,Cd)的杂金属杯[4]与配体对苯二甲酸和4,4′-二苯醚二甲酸形成的一维配位聚合物。     

二维钨-钒簇聚物[Cu（en）2]2·[WⅥ4·5WV2VVVⅣ9·5O44{Cu（en）2（H2O）}2]·3H2O的合成与表征

采用水热法合成了一个钨-钒簇聚物[Cu(en)2]2[WⅥ4.5WV2 VVVⅣ9.5O44{Cu(en)2(H2O)}2]·3H2O(1, en=乙二胺),并通过X射线单晶衍射、元素分析、傅里叶变换红外光谱、X射线粉末衍射、热重分析、价键计算、X射线光电子能谱、电子顺磁共振和磁性分析对其结构和性能进行了表征.结果表明,化合物1是以双支撑的四帽Keggin结构[WⅥ4.5WV2 VⅣ9.5O40(VVO4){Cu(en)2(H2O)}2]4-钨-钒簇合物阴离子为基本结构单元,与4个[ Cu( en)2]2+配合物阳离子以共价键和弱键相连接形成二维层状结构,相邻层又通过氢键连接成三维超分子网络.研究了化合物1的磁性及光催化降解罗丹明B的活性.     

基于三联吡啶/苯三羧酸类配体构筑的两个配合物的合成、结构和性质

基于H3tbtd、H3bbta和bpy配体在水热条件下合成了配位聚合物{[Co3(tbtd)2(bpy)2(H2O)]·5H2O}n(1)和配合物[Cd2(Hbbta)(bpy)3(C2O4)(H2O)](2)(H3tbtd=4?(2,4,6?三羧基苯基)?2,2′,6′,2″?三联吡啶,H3bbta=1?氟?2,4,6?苯三酸,bpy=2,2′?联吡啶),并用元素分析、红外光谱、X射线单晶衍射等对其进行了表征。配聚物1为二维网状结构,基于丰富的氢键作用扩展形成三维超分子网结构。配合物2为双核结构,相邻的双核结构通过吡啶环之间的π…π堆积作用和氢键作用扩展为二维超分子网状结构。配聚物1在紫外光照射下对染料甲基橙(MO)的降解具有光催化活性,对紫外光催化具有良好的稳定性。此外还研究了配合物2的荧光性质和配合物1~2的热稳定性。     

A new supramolecular zinc(II) complex containing 4‐biphenylcarbaldehyde isonicotinoylhydrazone ligand: Nanostructure synthesis,catalytic activities and Hirshfeld surface analysis

A new potentially tridentate hydrazone ligand, 4‐biphenylcarbaldehyde isonicotinoylhydrazone (4‐bpinh), was prepared by the condensation of biphenyl‐4‐carboxaldehyde with isonicotinic acid hydrazide. Then, its nano‐sized and single crystal of zinc complex were synthesized using sonochemical and heat gradient methods, respectively. The structure of complex, [Zn(4‐bpinh)₂ Br₂] (1), was determined by single‐crystal X‐ray diffraction, FT‐IR, and elemental analysis, and the nano‐structure of complex was characterized by FT‐IR, XRD, and SEM. The single crystal X‐ray structure of complex showed that the metal center has a distorted tetrahedral geometry and the hydrazone ligand acts as monodentate trough the pyridyl N atom. Moreover, the analysis of crystal structures indicates the existence of intermolecular interactions such as N/C–H?Br/O, N/C–H?π, and π?π stacking in the stabilization of complex structure which finally led to the formation of the three‐dimensional supramolecular structure. Also, the impact of this interactions was more studied using Hirshfeld surface analysis and corresponding 2D fingerprint plots. Furthermore, the catalytic activity of 1 was studied in the selective oxidation of various sulfides to corresponding sulfoxides using hydrogen peroxide as the oxidative agent.     

Supramolecular Structures with the 2‐Propyl‐4,5‐dicarboxy‐1H‐imidazole Ligand: Hydrothermal Synthesis,Structures, and Photoluminescence

Self‐assembly of the rigid organic ligand 2‐propyl‐4,5‐dicarboxy‐1H‐imidazole ( L ) with different metal ions (Zn²⁺, Ni²⁺, Cu²⁺, Cd²⁺) led to four new complexes, namely, [M( L )(phen)] [M = Zn ( 1 ); Ni ( 2 ); Cd ( 3 )] and [Cu( L )( 4 )] (phen = 1,10‐phenanthroline). Their structures were determined by single‐crystal X‐ray diffraction analyses, and they were further characterized by elemental analysis, IR spectroscopy, and thermogravimetric analysis. Whereas compounds 1 , 2 , and 3 are discrete units, hydrogen‐bonding interactions play a vital role in these complexes. Compounds 1 and 2 form one‐dimensional (1D) and two‐dimensional (2D) structures through hydrogen‐bondinginteractions with helical character. In 1 , the hydrogen bonds (O–H ··· O) alternately bridge the M^II cations of the discrete units to form a one‐dimensional (1D) infinite helical chain. Complex 2 forms a 2D helical layer through parallel hydrogen bonds (N/O–H ··· O/N) between two adjacent helical chains. In 3 , the hydrogen bonds (N–H ··· O) connect adjacent discrete units into a ten‐membered ring with extension into a one‐dimensional double‐chain supramolecular structure. Complex 4 is a two‐dimensional gridlike (4,4) topological layer which is extended to a 3D network by hydrogen bonding. The solid‐state fluorescence spectrum of complex 3 was determined.     

铜(Ⅱ)与2-吡啶酸、4,4′-联吡啶配合物的合成、结构和电化学性质(英文)

The complex [Cu(bipy)(pc)(H2O)(ClO4)]·H2O(1)(bipy:4,4'-bipyridine;Hpc:α-pyridine carboxylic acid) has been synthesized and characterized by single crystal X-ray diffraction method and elemental analysis.It crysrallizes in the Monoclinic space group P21/n.The crystal structure reveals that Cu(Ⅱ) centre adopts a pseudo octahedral geometry.Ligand 4,4'-bipyridine as a bridge coordinates to two different Cu(Ⅱ) center to form a onedimensional zigzag chain.One dimensional chains are linked by C-H…O hydrogen bonding interactions to form two-dimensional layer.Layers are connected by O…H-O hydrogen bond to generate three-dimensional structure.The cyclic voltametric behavior of complex 1 is also investigated.     

刚性二咪唑配体组装金属有机大环与金属有机凝胶的结构与性质

用配体2-(4-吡啶基)-咪唑(4-PIM)和2-(4-(1-咪唑基)-苯基)-咪唑(IPI)分别与AgClO4和ZnCl2反应得到了配合物[Ag(4-PIM)]ClO4(1)和[Zn(IPI)]Cl2·H2O(2).晶体结构分析表明配合物1与2分别具有M4L4和M2L2金属有机大环结构,且金属有机大环分子结构中存在较...     

Effect of the Length of Fatty Acid Ligands on Lead(II) Complexes Based on a 1,10‐Phenanthroline Derivative

Two new Pb^II metal‐organic coordination polymers [Pb(3‐pdip)(glu)] · H₂O ( 1 ) and [Pb(3‐pdip)₂(odc)] · 2H₂O ( 2 ) [3‐pdip = 2‐(3‐pyridine)imidazo[4,5‐f]1,10‐ phenanthroline, H₂glu = glutaric acid, H₂odc = octanedioic acid], were synthesized by hydrothermal reactions of varying fatty acid ligands, and structurally characterized by single‐crystal X‐ray diffraction. Complex 1 exhibits a one dimensional (1D) chain structure, in which 3‐pdip ligands are attached to one side of the 1D chain. Complex 2 exhibits also a 1D chain structure, in which some paired 3‐pdip ligands are affiliated on both sides of the 1D chain. In the title complexes, the π–π stacking and hydrogen‐bonding interactions extend the 1D chain into a 3D supramolecular framework, respectively. The structural differences between the title complexes indicate the importance of fatty acid length for the creation of molecular architectures. Moreover, the thermal and fluorescence properties of title complexes are also reported.     

A novel alkaline earth strontium(II) coordination polymer: poly[hexaaquatetrakis(μ5‐pyridine‐2,6‐dicarboxylato)bis(μ4‐pyridine‐2,6‐dicarboxylato)(μ7‐sulfato)heptastrontium(II)]

The title compound, [Sr₇(C₇H₃NO₄)₆(SO₄)(H₂O)₆]_n, has been synthesized by an ionothermal method using the ionic liquid 1‐ethyl‐3‐methylimidazolium ([Emim]Br) as solvent, and characterized by elemental analysis, energy‐dispersive X‐ray spectroscopy, IR and single‐crystal X‐ray diffraction. The structure of the compound can be viewed as a three‐dimensional coordination polymer composed of Sr²⁺ cations, pyridine‐2,6‐dicarboxylate anions, sulfate anions and water molecules. The compound not only exhibits a three‐dimensional structure with a unique coordination mode of the sulfate anion, but also features the first example of a heptanuclear strontium(II) coordination polymer. The structure is further stabilized by O—H...O hydrogen bonds and π–π stacking interactions.     

Sonochemical synthesis of a two‐dimensional supramolecular polymer with nanoporous morphology,linear thallophilic and covalent hydrogen‐bonding interactions

A new thallium‐based supramolecular polymer [Tl(μ₃–3‐HClb)(μ₃–3‐Clb)]_n ( 1 ), (3‐HClb = 3‐chloroperbenzoic acid), has been synthesized and structurally characterized by single crystal X‐ray crystallography. It has a two‐dimensional structure with linear thallophilic and covalent hydrogen‐bonding interactions. In order to evaluate the effects of concentration, ultrasonic irradiation and type of solvents on structure, morphology and thermal behavior of 1 , some experiments were designed, and eight samples of 1 were synthesized under different conditions. These samples were characterized by IR spectroscopy, thermogravimetric and differential thermal analyses, X‐ray powder diffraction and scanning electron microscopy.     

Cadmium(II) Complexes with Mixed cis‐Epoxysuccinate and 2,2′‐Bipyridyl‐Like Ligands: Syntheses,Crystal Structures,and Luminescent Properties

Two new Cd^II complexes, [Cd( ces )(phen)]_∞ ( 1 ) and {[Cd( ces )(bpy)(H₂O)](H₂O)}₂ ( 2 ), were prepared by slow solvent evaporation methods from mixtures of cis‐epoxysuccinic acid and Cd(ClO₄)₂ · 6H₂O in the presence of phen or bpy co‐ligand ( ces = cis‐epoxysuccinate, phen = 1,10‐phenanthroline, and bpy = 2,2′‐bipyridine). Single‐crystal X‐ray diffraction analyses show that complex 1 has a one‐dimensional (1D) helical chain that is further assembled into a two‐dimensional (2D) sheet, and then an overall three‐dimensional (3D) network by the interchain C–H ··· O hydrogen bonds. Complex 2 features a dinuclear structure, which is further interlinked into a 3D supramolecular network by the co‐effects of intermolecular C–H ··· O and C–H ··· π hydrogen bonds as well as π ··· π stacking interactions. The structural differences between 1 and 2 are attributable to the intervention of different 2,2′‐bipyridyl‐like co‐ligands. Moreover, 1 and 2 exhibit intense solid‐state luminescence at room temperature, which mainly originates from the intraligand π→π* transitions of aromatic co‐ligands.     

Synthesis,crystal structure and magnetic properties of a two‐dimensional cyanide‐based heterometallic coordination polymer with cationic piperazinium ligands: poly[aquatetra‐μ2‐cyanido‐κ8C:N‐dicyanido‐κ2C‐(piperazinium‐κN4)cobalt(III)copper(II)]

Cyanide as a bridge can be used to construct homo‐ and heterometallic complexes with intriguing structures and interesting magnetic properties. These ligands can generate diverse structures, including clusters, one‐dimensional chains, two‐dimensional layers and three‐dimensional frameworks. The title cyanide‐bridged Cu^II–Co^III heterometallic compound, [Cu^IICo^III(CN)₆(C₄H₁₁N₂)(H₂O)]_n, has been synthesized and characterized by single‐crystal X‐ray diffraction analysis, magnetic measurement, thermal study, vibrational spectroscopy (FT–IR) and scanning electron microscopy/energy‐dispersive X‐ray spectroscopy (SEM–EDS). The crystal structure analysis revealed that it has a two‐dimensional grid‐like structure built up of [Cu(Hpip)(H₂O)]³⁺ cations (Hpip is piperazinium) and [Co(CN)₆]³⁻ anions that are linked through bridging cyanide ligands. The overall three‐dimensional supramolecular network is expanded by a combination of interlayer O—H...N and N—H...O hydrogen bonds involving the coordinated water molecules and the N atoms of the nonbridging cyanide groups and monodentate cationic piperazinium ligands. A magnetic investigation shows that antiferromagnetic interactions exist in the title compound.