含2-羟基吡啶负离子配体(hp^-)的铂(II)配合物cis-PtCl(hp)(PPh3)2和cis-Pt(hp)2(PPh3)2的结构

我们制得了两种含2-羟基吡啶负离子配体的铂(II)配合物: cis-PtCl(hp)(PPh3)2和cis-Pt(hp)2(PPh3)2。其晶体结构测定的结果表明, 两种配合物中的铂(II)离子呈近似平面的四边形配位, 2-羟基吡啶负离子配体以酮式异构体形式通过氮原子配位于铂上。     

含2-羟基吡啶负离子配体(hp~-)的铂(Ⅱ)配合物cis-PtCl(hp)(PPh_3)_2和cis-Pt(hp)_2(PPh_3)_2的结构

我们制得了两种含2-羟基吡啶负离子配体的铂(II)配合物:cis-PtCl(hp)(PPh_3)_2和cis-Pt(hp)_2(PPh_3)_2.其晶体结构测定的结果表明,两种配合物中的铂(II)离子呈近似平面的四边形配位.2-羟基吡啶负离子配体以酮式异构体形式通过氮原子配位于铂上.     

Zn(Ⅱ),Cd(Ⅱ),Mn(Ⅱ)与3-吡啶-4-苯甲酸二元配位聚合物的合成与性质

本文采用了3-吡啶-4苯甲酸作为配体,与过渡金属离子Zn(II)、Cd(II)和Mn(II)组装,通过溶剂热合成法获得了三例配位聚合物. 单晶结构分析表明,配合物1具有由四面体配位的Zn(II)离子与?-OH组成的一维之字链,通过3-吡啶-4苯甲酸与相邻的其它四条之字链连接,形成了具有钻石网拓扑的配位聚合物;配合物2和3为异质同晶,它们都具有由八面体配位的Cd(II)或Mn(II)离子和?-OH2组成的二核金属簇,通过3-吡啶-4苯甲酸与相邻的其它四个二核金属簇连接,也形成了具有钻石网拓扑的配位聚合物. 本文还对配体以及配合物1和2的荧光性质进行了表征. 配合物3的磁学性质测试表明,二核金属Mn(II)簇之间存在着反铁磁交换作用,而且表现出自旋反转的行为,并归属于短程相关而不存在长程有序.     

对苯二甲酸、2-(3-吡啶基)苯并咪唑配位聚合物的合成、晶体结构和发光

在水热条件下,对苯二甲酸(H2Bdc)和2-(3-吡啶基)苯并咪唑(3-PyHBIm)与Cd(NO3)2、Zn(NO3)2反应,得到配合物{[Cd(3-PyHBIm)(Bdc)(H2O)2](H2Bdc)1/2}n (1)、[Zn(3-PyHBIm)2(Bdc)(H2O)2]n (2)。单晶X-射线衍射结构分析表明,两个化合物均呈一维聚合结构,3-PyHBIm配体采用吡啶氮原子单齿配位。在配合物1中,对苯二甲酸根作为四齿配体,桥联Cd(II)离子,形成一维锯齿链状配位聚合物,两个水分子呈顺式配位。该化合物含有对苯二甲酸客体分子,通过强的氢键,构成三维超分子框架。在配合物2中,对苯二甲酸根作为双齿配体,结合Zn(II)离子,形成直线链状配位聚合物,两个水分子呈反式配位。两个配位聚合物都对热稳定,在固体状态下,呈蓝色发光。     

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.     

含有蒽酰亚胺的铜(Ⅰ)配合物的合成、结构及光谱研究

合成了两个含蒽酰亚胺基团的新配体N-(2-(6-氨基吡啶))-9-蒽酰亚胺(L1)和N,N'-(2,6-吡啶基)-二(9-蒽酰亚胺)(L2),以及L1的铜(Ⅰ)配合物[CuL1(PPh3)2](BF4)(1),并研究了它们的结构和光谱性质.理论计算表明配体L1配位前为反式构象,配合物1的晶体结构显示L1配位后发生结构扭曲呈顺式构象,羰基氧原子与铜(Ⅰ)离子配位.光谱研究表明配体L1和配合物1都表现出蒽的特征吸收和发射峰.     

三个稀土-主族三金属Ln(Ⅲ)-Sr(Ⅱ)-K(Ⅰ)配合物的结构与发光性质

用2,4,6-吡啶三甲酸和稀土钐、镝或钆的高氯酸盐溶液、碳酸锶、碳酸钾在180℃水热条件下进行反应,制备出3个含有3种金属离子的配位聚合物[Ln Sr K(ptc)2(H2O)]n(Ln=Sm(1)、Dy(2)、Gd(3),H3ptc=2,4,6-吡啶三甲酸)。X射线单晶衍射分析表明三者具有相同的结构,属三斜晶系,P1空间群。配合物中配体2,4,6-吡啶三甲酸根以2种不同的配位方式与3种金属离子配位,一种方式中连接了7个金属离子,另一种方式中连接了8个金属离子。Ln(Ⅲ)为八配位,与羧基上的6个氧原子和2个吡啶环上的2个氮原子配位;Sr(Ⅱ)也是八配位,配位原子均为氧原子;K(Ⅰ)与5个氧原子配位。荧光发射光谱表明,钐和镝的配合物在紫外光激发下均发射Sm(Ⅲ)和Dy(Ⅲ)两种离子的特征荧光,钆的配合物在紫外光激发下由于发生荷移跃迁而发射绿色荧光。     

配合物[M(CO)3(PPh2py)2](M=Fe,Ru)异构体的理论研究

对PPh2py配合物[M(CO)3(PPh2py)2](M=Fe, Ru)的三种构型的异构体1-6进行了研究. 其中PPh2py以两个P原子与M配位形成HH构型1(Fe)和4(Ru), 以一个P和一个N原子与M配位形成HT构型2(Fe)和5(Ru), 以两个N原子与M配位形成HH’构型3(Fe)和6(Ru). 结果表明, (1) PPh2py中P原子对HOMO轨道的贡献最大, PPh2py作为电子给体时易以P原子与金属原子结合. (2)从分子能量和相互作用能数据表明, 配合物中HH构型最稳定, HH'构型最不稳定, 这与合成产物为HH构型的结果一致. (3) 键长和Wiberg键级均表明P—M键比N—M键结合力强. P、M原子间存在σ键, 而N、Fe原子间仅存在nN→n*M或nN→σ*M-P的电荷转移作用. (4) HH构型中M对HOMO的贡献最大, PPh2py向M的电荷转移最强, 使M的负电荷最大, 故HH构型最易作为电子给体以M原子与第二个金属配位形成双核配合物.     

N,N′-双(3-吡啶醛)-(1R,2R)-环己二胺席夫碱Ag(Ⅰ)配合物的合成、结构和荧光性质研究（英文）

以3-吡啶醛和(1R,2R)-环己二胺进行缩合得到Schiff碱配体L1,然后,用配体L1和AgNO3进行配位反应,得到配合物[Ag(L1)(NO3)]n(1),并用元素分析、FT-IR、X-射线单晶衍射、热重分析、粉末衍射对其进行了表征。晶体结构表明:配合物1属于单斜晶系,C2空间群,Ag(Ⅰ)的配位环境均为扭曲四面体,分别和硝酸根的氧原子,配体中的2个吡啶氮原子以及1个亚胺氮原子配位,配体L1有2种配位模式,其中,1个配体用两臂的2个吡啶氮原子分别和2个Ag(Ⅰ)离子配位,另外1个配体用两臂的2个吡啶氮原子分别和2个Ag(Ⅰ)离子配位,同时2个亚胺氮原子也分别和2个Ag(Ⅰ)离子配位,这样配合物形成3D孔状结构。同时研究了配合物的固体荧光性质。     

[Cu(bpp)2(bpdc)(H2O)2]×2H2O and [Cu(bpp)2](tdc)×7.5H2O的合成、晶体结构和热稳定性

在室温下, 由Cu(NO3)2 、1,3 -二（4 -吡啶基）丙烷(bpp)、4,4 ’ -联苯二甲酸(H2bpdc)和2,5-噻吩二甲酸(H2tdc)制备出两种新型铜( II)配位聚合物[Cu(bpp)2(bpdc)(H2O)2]n·2nH2O, 1 和[Cu(bpp)2]n·n(tdc) 7.5nH2O, 2。两个配位聚合物均为一维线型结构,铜原子均采取变形的八面体结构,在轴线方向上的两个水分子与铜原子存在较弱的配位作用。在配合物1中,两个bpdc羧酸根离子与铜原子配位,而2中的tdc羧酸离子没有与铜原子键合,只是作为反离子平衡电荷。在两个产物中, 配体bpp具有不同的构象。热重分析表明配合物1与2分别在110°C和160°C以下是稳定的。     

直接法合成异核羰基金属族合物及Pd3(SC6H4OH)3(PPh3)3(OH)2Cl的晶体结构分析

本文根据分子碎片结合原理, 用直接法由简单的单质元素, 金属盐类及配体, 通过控制反应温度、压力, 时间及配体用量在CO气氛下一步合成含羰基和不含羰基的簇合物: Pd3(SC6H4OH)3(PPh3)3(OH)2Cl(1),Fe2S2(CO)5Pd(PPh3)3(2), Fe2S2(CO)5Pt(PPh3)3(3)。对它们进行了IR, NMR,EDS, 元素分析, 金属分析和化合物1的X光单晶衍射结构分析。化合物1属单斜晶系, 离子型, P21/n空间群, 晶胞参数a=1.4629(3)nm, b=1.9263(3)nm,c=2.4908(7)nm, β=94.53(2)°, Z=4, R=0.053。     

Cu_2I_2(PPh_3)_3·DMF的合成和晶体结构

Ｃｕ２Ｉ２（ＰＰｈ３）３·ＤＭＦ（Ｐｈ＝Ｃ６Ｈ５,ＤＭＦ＝ＨＣＯＮ（ＣＨ３）２）是通过Ｗ２Ｓ４〔Ｓ２ＣＮ－（ＣＨ２ＣＨ２ＯＨ）２〕２,ＰＰｈ３和ＣｕＩ在ＣＨ２Ｃｌ２和ＤＭＦ为溶剂,在室温条件下合成的晶体产物。其空间群为Ｐ２１／ｃ,晶胞参数：Ｃ５７Ｈ５２Ｃｕ２Ｉ２ＮＯＰ３,ａ＝１５．８６３（５）,ｂ＝１９．６１９（７）,ｃ＝１８．２３２（４）,β＝１０９．５３（２）°,Ｖ＝５３４８（３）３,Ｚ＝４,Ｍｒ＝１２４０．８７,Ｄｃ＝１．５４ｇ／ｃｍ３,μ（Ｍｏ－Ｋα）＝２０．６６ｃｍ－１,Ｆ（０００）＝２４７２,对于Ｉ＞３σ（Ｉ）的５９５４个衍射点,最终的Ｒ＝０．０４６,Ｒｗ＝０．０６９。晶体结构由二核铜化合物和溶剂ＤＭＦ组成,两个Ｃｕ原子呈现不对称配位结构,ＤＭＦ在三配位Ｃｕ原子的近邻,它的氧原子和配位ＰＰｈ３的碳原子最近距离在３．３２（２）－３．４４（２）,ＤＭＦ参与晶体中对二核铜分子的结构和分子的堆积有明显的影响     

Structural, dynamic, and theoretical studies of [AunPt2(PPh3)4(mu-S)2-n(mu 3-S)nL][PF6]n [n = 1, L = PPh3; n = 2, L = Ph2PCH2PPh2, (C5H4PPh2)2Fe

Three heterometallic Au-Pt complexes [Pt2(PPh3)4(mu-S)(mu 3-S)Au(PPh3)][PF6] (2), [Pt2(PPh3)4(mu 3-S)2Au2(mu-dppm)]-[PF6]2 (3), and [Pt2(PPh3)4(mu 3-S)2Au2(mu-dppf)][PF6]2 (4) have been synthesized from Pt2(PPh3)4(mu-S)2 (1) [dppm = Ph2PCH2PPh2; dppf = (C5H4PPh2)2Fe] and characterized by single-crystal X-ray crystallography. In 2, the Au(I) atom is anchored on only one of the sulfur centers. In 3 and 4, both sulfur atoms are aurated, showing the ability of 1 to support an overhead bridge structure, viz. [Au2(P-P)], with or without the presence of Au-Au bond. The change of dppf to dppm facilitates such active interactions. Two stereoisomers of complex 3 (3a,b) have been obtained and characterized by single-crystal X-ray crystallography. NLDFT calculations on 2 show that the linear coordination mode is stabilized with respect to the trigonal planar mode by 14.0 kJ/mol. All complexes (2-4) are fluxional in solution with different mechanisms. In 2, the [Au(PPh3)] fragment switches rapidly between the two sulfur sites. Our hybrid MM-NLDFT calculations found a transition state in which the Au(I) bears an irregular trigonal planar geometry (delta G++ = 19.9 kJ/mol), as well as an intermediate in which Au(I) adopts a regular trigonal planar geometry. Complexes 3a,b are roughly diastereoisomeric and related by sigma (mirror plane) conversion. This symmetry operation can be broken down to two mutually dependent fluxional processes: (i) rapid flipping of the dppm methylene group across the molecular plane defined by the overhead bridge; (ii) rocking motion of the two Au atoms across the S...S axis of the (Pt2S2) core. Modeling of the former by molecular mechanics yields a steric barrier of 29.0 kJ/mol, close to that obtained from variable-temperature 31P(1Hz) NMR study (33.7 kJ/mol). In 4, the twisting of the ferrocenyl moiety across the S...S axis is in concert with a rocking motion of the two gold atoms. The movement of dppf is sterically most demanding, and hence, 4 is the only complex that shows a static structure at lower temperatures. Pertinent crystallographic data: (2) space group P1, a = 15.0340(5) A, b = 15.5009(5) A, c = 21.9604(7) A, alpha = 74.805(1) degrees, beta = 85.733(1) degrees, gamma = 78.553(1) degrees, R = 0.0500; (3a) space group Pna2(1), a = 32.0538(4) A, b = 16.0822(3) A, c = 18.9388(3) A, R = 0.0347; (3b) space group Pna2(1), a = 31.950(2) A, b = 16.0157(8) A, c = 18.8460(9) A, R = 0.0478; (4) space group P2(1)/c, a = 13.8668(2) A, b = 51.7754(4) A, c = 15.9660(2) A, beta = 113.786(1) degrees, R = 0.0649.     

CS2在Ag-S键中的插入反应的研究(PPh3)2 Ag(S2CSBu^t)

白色的[Bu^tSAg]nPPh3溶于CS2中, 析出桔黄色晶体. 经X射线单晶结构分析其结构为(PPh3)2Ag(S2CSBu^t). 发现了一个CS2在Ag-S键中的插入反应. 此反应为可逆反应, 晶体在120-130℃失去CS2. 晶体属三斜晶系, 空间群P1,a=10.571(1), b=13.638(3), c=14.391(3)A, α=88.75(2), β=72.84(1), γ=80.58(1)°, V=1954.9A^3, Dc=1.36g/cm^3, Dm=1.36g/cm^3, Z=2. 3572个衍射点参与修正, R=0.045, Rw=0.043, Ag原子以变形四面体与硫代黄原酸配体Bu^tS-CS2的两个S原子及两个PPh3的P原子配位. 插入反应形成的CS3基团基本上共面, 其C-S键长比CS2中的键长明显加长, 而比单键的C-S键长要短, 并在红外光谱上出现特征吸收峰.     

双-[N(4-取代苯基)-水杨醛亚胺]合锌(Ⅱ)的晶体结构

为进一步研究过渡金属离子与席夫碱配合和的结构与性能的关系,本文报道双-[N-(4-取代苯基)-水杨醛亚胺]合锌的晶体结构.     

APPLICATION OF DITHIO - MOLYBDATE IN THE SYNTHESES OF Mo-Cu CLUSTERS: SYNTHESES AND CRYSTAL STRUC-TURES OF MoOS_3(CuPPh_3)(Cu(PPh_3)_2 AND (Ph_4P)_2[Mo_2Cu_5S_6O_2-(S_2CNEt_2)_3] ·DMF

<正> The reactions of (NH4)2MoO2S2 with Cu(PPh3)3Cl in CH3CN in the air, or with CuCl, Ph4PBr, and NaS2CNEt2 in DMF under anaerobic condition, afforded the cluster complexes MoS3OCu2 (PPh3)3 (Ⅰ) and (Ph4P)2 CMo2Cu5S6O2-(S2CNEt2)33 · DMF (Ⅱ), respectively. Compound (Ⅰ), MoOS3Cu2P3C54H45(Mr = 1121. 0) , crystallizes in the triclinic, space group P1 with cell parameters a = 14. 103 (3), b = 17.906(3), c=11.503(2)(?), α=107. 76(1), β=111.81(2), γ = 74.93 (2)°, F = 2532. 9(?)3 and Z=2, Dc=1. 471 g/cm3, F (000) = 1140, μ(MoKα) = 13. 215 cm-1, final R = 0. 060 (Rw = 0.064) for 5959 independent reflections with I >3σ(Ⅰ). Complex (IⅡ), Mo2O3S12Cu5P2N4C66H77 (Mr = 1930. 67) , crystallizes in monoclinic, space group P2/c with cell parameters a = 25. 325(19) , 6 = 22. 506(9) , c =14. 066(8)(?) , β =100. 96(6)°, V =7871. 16 (?)3, Z = 4, D,= 1. 629 g/cm3, F(000) = 3904, μ(MoKα) = 20. 216 cm-1, R = 0. 097 (Rw = 0. 095) for 5677 reflections with I>3σ(Ⅰ). The core structure of complex (Ⅰ) is defective cub     

Syntheses and Crystal Structures of Two Silver(I) Complexes Isolated by the Reaction of [Ag(PPh3)2(MeCN)](SbF6) with a N6 Ligand

1 INTRODUCTION The polyaza macrocyclic and macrobicyclic mo-lecules have been extensively studied due to theirinclusion ability for neutral molecules, coordinationability for metal cations and versatile roles in thefields of recognition, transformation…     

CRYSTAL STRUCTURE OF（Bu4N）2[Pt（C3S5）2]

<正> The title compound C38H72N2PtS10(Mr=1072.74)crystallizes in triclinic system,space group P1 with cell constants a=11.994(4),b=18.117(7),c=11.855(6)A,α=95.55(4),β=99.14(3),γ=75.71(3)°,V=2460.0A3,Z=2 and Dc=1.45 gcm-3.The structure is solved by direct methods and refined by full-matrix least-squares technique to final R=0.046 and Rw=0.045 based on 5919 independent reflections with I≥3.0(I).The anion [Pt(C3S5)2]2-is approximately planar,of which the platinum-sulfur coordination polyhedron takes a square form with mean Pt-S bond length of 2.310(4)A.     

Synthesis and crystal structure of chain [Cu_2I_2(PPh_3)_2(C_4H_5N_3)]∝

The chain [ Cu2I2(PPh3)2(C4H5N3)] has been synthesized and characterized by X-ray crystallography.It crystallizes in the triclinic system,space group P 1,with a=0.9985(2)nm,b=1.0998(2)nm,c=1.5174(2)nm,a=87.89(1),P=76.73(l),7=77.77(1),V=1.5849(5)nm3,Z=2,Bc=2.095g/cm3 [Gu2I2(PPh3)2(Crh5N3)] has a dimmer unit [Cu2I2(PPh3)2(C4H5N3)].The two N atoms of the phenyl ring of 2-aminopyrimidine bridge two [CuI(PPh3)]2 units,by which a one-dimensional chain is constructed.The van der Waals force makes the molecules arrange in the three-dimensional space.     

Stable diplatinum complexes with functional thiolato bridges from dialkylation of [Pt2(mu-S)2(P-P)2] [P-P=2 x PPh3, Ph2P(CH2)3PPh2

The normally robust monoalkylated complexes [Pt(2)(mu-S)(mu-SR)(PPh(3))(4)](+) can be activated towards further alkylation. Dialkylated complexes [Pt(2)(mu-SR)(2)(P-P)(2)](2+) (P-P=2 x PPh(3), Ph(2)P(CH(2))(3)PPh(2)) can be stabilized and isolated by the use of electron-rich and aromatic halogenated substituents R [e.g. 3-(2-bromoethyl)indole and 2-bromo-4'-phenylacetophenone] and 1,3-bis(diphenylphosphino)propane [Ph(2)P(CH(2))(3)PPh(2) or dppp] which enhances the nucleophilicity of the {Pt(2)(mu-S)(2)} core. This strategy led to the activation of [Pt(2)(mu-S)(mu-SR)(PPh(3))(4)](+) towards R-X as well as isolation and crystallographic elucidation of [Pt(2)(mu-SC(10)H(10)N)(2)(PPh(3))(4)](PF(6))(2) (2a), [Pt(2)(mu-SCH(2)C(O)C(6)H(4)C(6)H(5))(2)(PPh(3))(4)](PF(6))(2) (2b), and a range of functionalized-thiolato bridged complexes such as [Pt(2)(mu-SR)(2)(dppp)(2)](PF(6))(2) [R= -CH(2)C(6)H(5) (8a), -CH(2)CHCH(2) (8b) and -CH(2)CN (8c)]. The stepwise alkylation process is conveniently monitored by Electrospray Ionisation Mass Spectrometry, allowing for a direct qualitative comparison of the nucleophilicity of [Pt(2)(mu-S)(2)(P-P)(2)], thereby guiding the bench-top synthesis of some products observed spectroscopically.