一维4, 4''-联吡啶桥联噻吩甲酰三氟丙酮过渡金属配合物的合成、结构和磁性

本文合成了六个4,4’-联吡啶桥联配合物:[M(TTA)_2(μ-4,4’-bipy)],[M=Mn(Ⅱ),Fe(Ⅱ),Co(Ⅱ),Ni(Ⅱ),Cu(Ⅱ),Zn(Ⅱ);TTA=噻吩甲酰三氟丙酮],经元素分析、IR、~1HNMR和晶体结构分析,确定配合物具有一维无限链状结构.Mn(Ⅱ)配合物的晶体属三斜晶系,空间群PI,晶胞参数a=0.9549(2),b=0.9600(3),c=1.1556(3)nm;a=65.99(3),β=83.96(4),γ=68.89(3)°;V=0.9017(4)nm~3;Z=1;D_c=1.417g·cm~(-3);μ=5.3cm~(-1);F(000)=393;最终R=0.067.Mn(Ⅱ)处于畸变八面体配位环境中,由 Cu(Ⅱ)配合物的ESR谱近似计算了分子轨道系数和键合参数.Mn(Ⅱ).Cu(Ⅱ)配合物的变温磁化率表明,金属离子间磁行为服从Curie定律.     

L-苏氨酸二元和三元配合物的PH电位法研究

本文报道了L-苏氨酸同Cu(II),Zn(II),Fe(II),Mn(II),Ca(II),Mg(II),Ni(II),Cd(II)的二元及三元配合物的pH电位法研究.电位滴定数据是使用MINIQUAD和ESTA计算机程序处理的.在每个体系中确定了最佳配合物粒子模型,并测定了在生理条件下(温度为37±0.1℃离子强度为150mmol.dm^-3NaCl)的稳定常数.结果表明在铜配合物中Cu,Thr.His混配配合物是与Cu(His)~2^-同样重要的配合物,因此需要重新计算在血浆中铜在这些配合物中的分布.虽然苏氨酸可以看作为三齿配位体,但本工作的结果并无证据支持羟基参与配位,然而在Cd-The-His体系中,Cd.Thr.His同它的1:2母体二元配合物相比表现了显著的稳定性,这可能显示了不同的配位状况.但这一点有待于进一步证实.     

二茂铁基取代酰腙的一些过渡金属配合物

本文制备了两个金属有机配位体,肉桂醛二茂铁基甲酰腙(HL^1)和二[(1-肉桂酰肼基乙基)环戊二烯基]铁(H~2L^2)及它们与一些过渡金属的配合物:ML~2^1[M=Cu(II)],ML^2[(M=Cu(II)和Zn(II)],M(HL^1)~2Cl~2[M=Cd(II),Co(II)和Ni(II)],M(H~2L^2)Cl~2[M=Mn(II),Zn(II),Co(II)和Cd(II)]。这两个配位体以烯醇式与M(OAc)~2.nH~2O中心离子配位,与MCl~2.nH~2O则以酮式配位。     

1,1'-二(N-水杨酰腙乙基 )二茂铁及其过渡金属(Ⅱ)的配合物

本文合成了1,1'-二(N-水杨酰腙乙基)二茂铁及其过渡金属配合物,ML.nH~2O[M=Mn(II)、Co(II)、Ni(II)、Cu(II)、Zn(II)和Cd(II)],并用元素分析、UV、IR、^1HNMR、TG-DTA和摩尔电导进行了表征.配体以烯醇式以通过亚胺基氮原子和酰胺基氧负离子与金属离子配位,按摩尔比1:1结合.Ni(II)配合物有一分子DMF配位.大部分配合物比配体热稳定性高.     

3d过渡金属的2-羰基丙酸(4-吡啶甲酰基)腙配合物的合成, 表征及导电性质研究

本文制备了2-羰基丙酸(4-吡啶甲酸基)腙(H2PPFH)的六种过渡金属配合物和Mn(II)配合物的单晶。通过元素分析, 红外和紫外光谱, 差热和热重分析对各配合物的结构和性质进行了表征。配合物的通式为M(PPFH).n[H2O(II)=Mn, Fe, Co,Ni, Cu, Zn, n=0～2]。并通过X射线单晶衍射仪对Mn(II)配合物的晶体结构进行了测定。分析表明该晶体属单斜晶系。空间群为P21/n, Z=4, a=1.1252, b=0.9828,c=1.3708nm, β=66.03°, R=0.28。通过配合物的导电性能的测试, 发现它们都具有半导电性质。     

P[(NH3)5CoimM(tren)](ClO4)4·2H2O[M=Cu(II), Zn(II)]的合成、表征及咪唑桥的断裂

本文合成了两个新的异双核咪唑桥联配合物[(NH3)5CoimM(tren)](ClO4)4·2H2O[M=Cu(II), Zn(II); im=咪唑基], 用热重差热、反射光谱、ESR等手段进行表征, 证实咪唑桥的存在, 用PH法结合计算机拟合, 定量地模拟了异双核配合物中咪唑桥的断裂过程, 表明在水溶液中, 金属-咪唑键首先从非钴(III)端断裂。     

P[(NH3)5CoimM(tren)](ClO4)4·2H2O[M=Cu(II), Zn(II)]的合成、表征及咪唑桥的断裂

本文合成了两个新的异双核咪唑桥联配合物[(NH3)5CoimM(tren)](ClO4)4·2H2O[M=Cu(II), Zn(II); im=咪唑基], 用热重差热、反射光谱、ESR等手段进行表征, 证实咪唑桥的存在, 用PH法结合计算机拟合, 定量地模拟了异双核配合物中咪唑桥的断裂过程, 表明在水溶液中, 金属-咪唑键首先从非钴(III)端断裂。     

N,N'-二(3-氨丙基)草酰胺合铜的双核Cu(II)-Zn(II)配合物的合成和结构

合成和表征了三个异核配合物: [Cu(oxpn)Zn(bpy)2](ClO4)2·1/2H2O(1),[Cu(oxpn)Zn-(phen)2](ClO4)2·2H2O(2), [Cu(oxpn)Zn(NO2-phen)2](ClO4)2·2H2O(3)[bpy=2,2'-联吡啶、phen=1,10-菲咯啉、NO2-phen=5-硝基-1,10-菲咯啉、oxpn=N,N'-二(3-氨丙基)草酰胺阴离子], 2的晶体属单斜晶系, P2/n空间群, 晶胞参数: a=1.5061(3), b=1.2924(3), c=2.2802(3)nm, β=108.42(2)°, V=4.1869nm^3,Z=4, Dm=1.409g/cm^3, μ=12.812cm^-^1, F(000)=1812, 最终的偏离因子R=0.093,Rw=0.099。结构分析证实, 配合物具有扩充的草酰胺桥联结构, Cu(II)及Zn(II)的配位环境分别为平面四边形和畸变的八面体构型, 阳离子的对称性近似为C2v。此外, 本文还指派了配合物的电子光谱, 并对EPR、有效磁矩等数据进行了讨论。     

N,N'-二(3-氨丙基)草酰胺合铜的双核Cu(II)-Zn(II)配合物的合成和结构

合成和表征了三个异核配合物: [Cu(oxpn)Zn(bpy)2](ClO4)2·1/2H2O(1),[Cu(oxpn)Zn-(phen)2](ClO4)2·2H2O(2), [Cu(oxpn)Zn(NO2-phen)2](ClO4)2·2H2O(3)[bpy=2,2'-联吡啶、phen=1,10-菲咯啉、NO2-phen=5-硝基-1,10-菲咯啉、oxpn=N,N'-二(3-氨丙基)草酰胺阴离子], 2的晶体属单斜晶系, P2/n空间群, 晶胞参数: a=1.5061(3), b=1.2924(3), c=2.2802(3)nm, β=108.42(2)°, V=4.1869nm^3,Z=4, Dm=1.409g/cm^3, μ=12.812cm^-^1, F(000)=1812, 最终的偏离因子R=0.093,Rw=0.099。结构分析证实, 配合物具有扩充的草酰胺桥联结构, Cu(II)及Zn(II)的配位环境分别为平面四边形和畸变的八面体构型, 阳离子的对称性近似为C2v。此外, 本文还指派了配合物的电子光谱, 并对EPR、有效磁矩等数据进行了讨论。     

N,N'-双(2-氨基丙基)草酰胺合铜(II)的铜(II)-锰(II)配合物的合成和磁性

合成和表征了两种新的异双核配合物[Cu(oxap)Mn(L)~2](ClO~4)~2, oxap表示N,N'-双(2-氨基丙基)草酰胺根阴离子, L表示1,10-邻菲咯啉(phen)和5-硝基-1,10-邻菲咯啉(NO~2-phen)。测定了配合物的变温磁化率(4.2-300K), 并用最小二乘法和从自旋Hamiltonian算符, ^^H=-2J^^S~1.^^S~2-D^^S~Z~1导出的磁方程拟合。求得交换积分为J=-74.72cm^-^1(phen)和J=-76.39cm^-^1(No~2-phen), 表明两个Cu(II)-Mn(II)双核配合物中有中等强度的反铁磁超交换作用。     

4,4'-联吡啶、吡嗪和咪唑桥联铜、镍配合物的合成和磁性

合成了六个含氮杂环桥联配合物: [Ni(salal)2(4,4'-bipy)]n、[Ni(Et-dtp)2(4,4'-bipy)]n、[Cu(acac)2(4,4'-bipy)]n、[Cu(TTA)2(pyz)]n、[Cu(TTa)(Im)]n和[Cu(Im)2]n, 用元素分析、IR、MS、ESR和热重分析对它们的结构和性质作了表征。吡嗪配合物的晶体结构显示, 吡嗪配位于拉伸八面体的轴向位置, 桥联Cu(TTA)2形成一维无限链状结构。变温磁化率表明, 4,4'-联吡啶和吡嗪配合物的磁性遵从Curie-Weiss定律, 分子内没有明显的磁交换作用。咪唑配合物中存在着较强的反铁磁性交换作用, 磁交换常数分别为-75和-107cm^-^1。对4,4'-联吡啶、吡嗪和咪唑传递磁交换的性质作了讨论。     

N,N'-乙二水杨酰胺合铜(II)酸根和N,N'-1,2-丙二水杨酰胺全铜(II)酸根的双核Cu(II)-Fe(III)配合物的合成和磁性

本文合成了四个新型双核配合物、[Cu(samen)Fe(L)Cl]和[Cu(sampn)Fe(L)Cl]。经元素分析、IR, 电导、磁性测量等手段推定配合物具有酚氧桥结构, Cu(II)及Fe(III)的配位环境分别为平面四方及四角锥的构型, Fe(III)离子的自旋态S=3/2。测定了配合物[Cu(samen)Fe(L)Cl]的变温磁化率(4-300K), 参数J和θ值表明两个双核配合物中金属离子之间有中等程度的反铁磁性超交换作用和双核单元之间有弱的分子间相互作用。     

Magneto-structural xorrelations in 2D and 3D extended structures of manganese(II)-malonate systems

Two polymeric malonato-bridged manganese(II) complexes of formula [Mn(mal)(H(2)O)(2)](n)() (1) and [Mn(2)(mal)(2)(4,4'-bipy)(H(2)O)(2)](n)() (2) have been synthesized and characterized (mal = malonate dianion; 4,4'-bipy = 4,4'-bipyridine). The crystal structure of complex 1 was already known. Complex 2 crystallizes in monoclinic space group P2(1)/n, Z = 2, with unit cell parameters of a = 7.2974(10) A, b = 18.7715(10) A, c = 7.514(3) A, and beta = 91.743(12) degrees. The structure determination reveals that the complex [Mn(2)(mal)(2)(4,4'-bipy)(H(2)O)(2)](n)() (2) is a 3D network being composed of Mn-malonate sheets which are pillared by bidentate 4,4'-bipy spacer forming small voids. The Mn-Mn distances through Mn-mu-(O3-C8-O4)-Mn, Mn-mu(O1-C6-O2)-Mn, and Mn-mu-4,4'-bipy-Mn bridges are 5.561, 5.410, and 11.723 A, respectively. The magnetic behaviors of complexes 1 and 2 in the temperature range 300-2 K are very close, corresponding to a weak antiferromagnetic coupling. The magnetic pathways of complex 1 are through two Mn-O-C-O-Mn with anti-anti conformation and two Mn-O-C-O-Mn with syn-anti conformations and in complex 2 through all Mn-O-C-O-Mn with syn-anti conformations. Both syn-anti and anti-anti conformations create weak antiferromagnetic coupling, and the susceptibility data are fitted by the expansion series of Lines and the Curély formula for an S = 5/2 antiferromagnetic quadratic layer, based on the exchange Hamiltonian H = -Sigma(nn)()JS(i)()S(j)(). The best fit is given by the superexchange parameters J = -0.32 cm(-)(1) and g = 2.00 for complex 1 and J = -0.14 cm(-)(1), J(inter) = -0.031 cm(-)(1), and g = 2.00 for complex 2. Finally, in both the complexes there is a magnetic pathway Mn-O-C-C-C-O-Mn, and this pathway through the three carbon atoms of the malonato-bridging ligand could be considered negligible.     

{(n-Bu4N)2[Mo2O2S6Cu6Br4(4,4''-bipy)3]·0.5H2O}n的合成与晶体结构

Cluster coordination polymer {(n-Bu4N)2[Mo2O2S6Cu6Br4(4,4'-bipy)3]·0.5H2O)}n (4,4'-bipy=4,4'-bipyridine),has been synthesized and characterized by X-ray crystallography. The polymeric anion {[Mo2O2S6Cu6Br4(4,4'-bipy)3]2-}n is composed of secondary building units (SBUs) [MoOS3Cu3], Br atoms and 4,4'-bipy ligands. Two secondary building units [MoOS3Cu3] and a double parallel 4,4'-bipy ligands form an octanuclear rectangular metallamacrocycle with the dimension of 1.13×0.39 nm2, which is further connected by single bridging 4,4'-bipy ligands to form a 1D zigzag structure. Crystal data for compound 1: C62H97N8O2.50S6Br4Cu6Mo2,M=2 079.68, Triclinic, P1, a=0.982 40 (10) nm, b=1.293 70(10) nm, c=1.737 4(2) nm, α=97.810(10)°,β=101.390(10)°,γ=108.520(10)°, V=2.005 1(4) nm3, Z=2, Dc=1.722 g·cm-3, F(000)= 1039,μ (Mo Kα)=4.055 mm-1, the final R=0.040 7, wR2=0.097 2. CCDC: 236407.     

肼基硫代甲酸酯配合物的合成、晶体结构、光谱及三阶非线性光 学性质研究

报道三种有推拉电子基团的肼基硫代酸酯衍生物配体(HL^1^～^3)。此类配体与二价过渡金属离子配位时脱去一质子,形成D-M-D和A-M-A(D=给体,M=金属,A=受体)类型、含有共轭体系的中性配合物。本文集中研究了该类配体的镍、铜、钯、铂配合物的IR、磁化率、ESR谱,电子光谱和三阶非线性光学性质,通过光谱研究初步确定了它们均为平面正方形构型配合物,文中还报道了CuL2^1的晶体结构。晶体属P1空间群,a=0.7835(2),b=1.0530(2),c=1.1816(2)nm,α=100.61(3),β=92.38(3),γ=110.00(3)ⅲ,Z=1,最终的R因子为0.063。通过晶体结构测试,进一步确定铜配合物的结构为平面构型。     

Novel hydrogen-bonded three-dimensional networks encapsulating one-dimensional covalent chains: [M(4,4'-bipy)(H2O)(4)](4-abs)(2).nH2O (4,4'-bipy = 4,4'-bipyridine; 4-abs = 4-aminobenzenesulfonate) (M = Co,n = 1; M = Mn,n = 2)

Two novel compounds, [Co(4,4'-bipy)(H(2)O)(4)](4-abs)(2).H(2)O (1) and [Mn(4,4'-bipy)(H(2)O)(4)](4-abs)(2).2H(2)O (2) (4,4'-bipy = 4,4'-bipyridine; 4-abs = 4-aminobenzenesulfonate), have been synthesized in aqueous solution and characterized by single-crystal X-ray diffraction, elemental analyses, UV-vis and IR spectra, and TG analysis. X-ray structural analysis revealed that 1 and 2 both possess unusual hydrogen-bonded three-dimensional (3-D) networks encapsulating one-dimensional (1-D) covalently bonded infinite [M(4,4'-bipy)(H(2)O)(4)](2+) (M = Co, Mn) chains. The 4-abs anions in 1 form 1-D zigzag chains through hydrogen bonds. These chains are further extended through crystallization water molecules into 3-D hydrogen-bonded networks with 1-D channels, in which the [Co(4,4'-bipy)(H(2)O)(4)](2+) linear covalently bonded chains are located. Crystal data for 1: C(22)H(30)CoN(4)O(11)S(2), monoclinic P2(1), a = 11.380(2) A, b = 8.0274(16) A, c = 15.670(3) A, alpha = gamma = 90 degrees, beta = 92.82(3) degrees, Z = 2. Compound 2 contains interesting two-dimensional (2-D) honeycomb-like networks formed by 4-abs anions and lattice water molecules via hydrogen bonding, which are extended through other crystallization water molecules into three dimensions with 1-D hexagonal channels. The [Mn(4,4'-bipy)(H(2)O)(4)](2+) linear covalent chains exist in these channels. Crystal data for 2: C(22)H(32)MnN(4)O(12)S(2), monoclinic P2(1)/c, a = 15.0833(14) A, b = 8.2887(4) A, c = 23.2228(15) A, alpha = gamma = 90 degrees, beta = 95.186(3) degrees, Z = 4.     

Coordination complexes of 2-(4-quinolyl)nitronyl nitroxide with M(hfac)(2) [M = Mn(II), Co(II), and Cu(II)]: syntheses, crystal structures, and magnetic characterization

Three new complexes of the formula M(2)L(2) derived from 2-(4-quinolyl)nitronyl nitroxide (4-QNNN) and M(hfac)(2) [M = Mn(II), Co(II), and Cu(II)], (4-QNNN)(2).[Mn(hfac)(2)](2) (1), (4-QNNN)(2).[Co(hfac)(2)](2).2H(2)O (2), and (4-QNNN)(2).Cu(hfac)(2).Cu'(hfac)(2) (3), were synthesized and characterized structurally as well as magnetically. Complexes 1 and 2 are four-spin complexes with quadrangle geometry, in which both the nitrogen atoms of quinoline rings and oxygen atoms of nitronyl nitroxides are involved in the formation of coordination bonds. For complex 3, however, the nitrogen atoms of quinoline rings are coordinated with Cu(II) ion to afford a three-spin complex, which is further linked to another molecule of Cu(hfac)(2) (referred to as Cu'(hfac)(2)) to form a 1D alternating chain. The magnetic behaviors of the three complexes were investigated. For complex 1, as the nitronyl nitroxides and Mn(II) ions are strongly antiferromagnetically coupled, consequently its temperature dependence of magnetic susceptibility was fitted to the model of spin-dimer with S = 2, yielding the intradimer magnetic exchange constant of J = -0.82 cm(-1). For complex 2, the temperature dependence of the magnetic susceptibility in the T > 50 K region was simulated with the model of two-spin unit with S(1) = 3/2 and S(2) = 1/2, leading to J = -321.9 cm(-1) for the magnetic interaction due to Co(II).O coordination bonding, D = -16.3 cm(-1) (the zero-field splitting parameter), g = 2.26, and zJ = -3.8 cm(-1) for the magnetic interactions between Co(II) ions and nitronyl nitroxides through quinoline rings and those between nitronyl nitroxides due to the short O.O short contacts. The temperature dependence of magnetic susceptibility of 3 was approximately fitted to a model described previously affording J(1) = -6.52 cm(-1) and J(2) = 3.64 cm(-1) for the magnetic interaction between nitronyl nitroxides and Cu(II) ions through the quinoline unit via spin polarization mechanism and the weak O.Cu coordination bonding, respectively.     

N,N'-1,2-丙二水杨酰胺合铜(II)酸根的双核Cu(II)-Ni(II)配合物的合成和磁性

本文合成了两个新的双核配合物, [Cu(sampu)Ni(L)2], sampn^4^-表示N,N'-1,2-丙二水杨酰胺阴离子, L表示2,2-联吡啶(bpy)或1,10-菲咯啉(phen),经元素分析, IR和电子光谱等方法已推定配合物具有酚氧桥结构和Cu(II)及Ni(II)的配位环境分别为平面四方及八面体构型, 配合物的变温磁化率已测(4-300K), 其数值用最小二乘法和从自旋哈密顿算符H=-2JS1S2导出的磁方程拟合, 求得交换参数为J=-1.90cm^-^1(pby)和J=1.68cm^-^1(phen), 表明两个Cu(II)-Ni(II)双核配合物中有弱的反铁磁自旋交换相互作用。     

N,N'-双水杨酰代乙二胺合铜(II)酸根和N,N'-1,2-双水杨酰代丙二胺合铜(II)酸根的Cu(II)-Co(II)双核酸合物的合成和磁性

本文合成了两个新型双核配合物, [Cu(Samen)Co(L)2]和[Cu(Sampn)Co(L)2], Samen^4^-表示N,N'-双水杨酰代乙二胺根阴离子,Sampn^4^-表示N,N'-1,2-双水杨酰代丙二胺根阴离子, L表示5-硝基-1,10-菲咯啉(NO2-Phen)。经元素分析, IR和电子光谱等推定配合物具有酚氧桥结构,Cu(II)及Co(II)的配位环境分别为平面四方及畸变八面体构型。测定了配合物(4-300K)的变温磁化率, 并用最小二乘法和自旋Hamiltonian算符,H=2JS1.S2-DSzl导出的磁方程拟合, 求得交换参数为J=-4.39(Samen)和-3.59cm^-^1(Sampn), 表明两个Cu(II)-Co(II)双核配合物中有弱的反铁磁性超交换相互作用。     

一维链状锰配合物的合成、结构及磁性研究

合成了邻硝基苯磺酰化丙氨酸配体2-NBS-AlaH (1)(2-NBS-AlaH=邻硝基苯磺酰化丙氨酸)及其锰的配合物[Mn(4，4′-bipy)(H₂O)₄]₂[(4，4′-bipy)₂(H₂O)₃(2-NBS-Ala)₄] (2)。通过X-射线单晶衍射测定了其结构：配体通过氢键形成了一维链状结构；配合物2中，4，4′-bipy把锰离子连成了一维链状结构。磁性研究表明，配合物由于分子间的自旋耦合呈现出弱的铁磁性。