Cu(Ⅱ)—苯并-15-冠-5在溶液中的磁共振研究

本文利用ESR和NMR谱对配合物Cu(II)—苯并-15-冠-5丙酮溶液的磁共振性质进行了研究.{[Cu(II)(C_(14)O_5H_(20))(H_2O)_2](ClO_4)_2}·3H_2O在丙酮中解离形成[Cu(II)(C_(14)O_5H_(20))(H_2O)_2]~(2+)和[Cu(H_2O)_6]~(2+)两种配位离子.其自旋哈密顿参量分别为g_∥=1.9887,g_⊥=2.3179,A_∥=0.0133cm~(-1),|A_⊥|<0.0032cm~(-1);(g')_∥=2.4143,(g')_⊥=2.0768,(A')_∥=0.0137cm~(-1),|(A')_⊥|<0.0016cm~(-1).基于ESR谱中g_∥相似文献   

甲酸根桥联双核铜配合物磁学性质理论研究

基于DFT-BS方法,选择不同的泛函方法和基组,研究anti,anti甲酸桥联双核铜配合物的磁学性质.结果表明,在B3P86/TZV水平计算得到顺磁中心Cu(Ⅱ)离子间磁耦合常数为-55.63 cm^-1,与实验值-55.60 cm^-1最接近,可准确描述甲酸桥联双核铜配合物的磁学性质.顺磁中心Cu(Ⅱ)与甲酸根桥联配体间有较强的轨道作用,其磁轨道主要来源于Cu(Ⅱ)离子的3dyz轨道、桥联配体甲酸根离子的离域π键,顺磁中心Cu(Ⅱ)离子为自旋离域机理.在不同桥联模式的甲酸桥联双核铜配合物中,随顺磁中心Cu(1)自旋密度增加,Cu(Ⅱ)离子间的反铁磁性贡献逐渐增加,其磁耦合常数J值逐渐减小.     

两个基于双咪唑基配体的Co(Ⅱ)/Cu(Ⅰ)配合物的合成、晶体结构及荧光性质

以Co(ClO4)2·6H2O/Cu(ClO4)2·6H2O、1,4-双(咪唑基-1-基)丁烷(bib)/1,4-双(咪唑基-1-基)苯(bix)和4,4-(1,3-苯基双(亚甲基氧基))二苯甲酸(H2pmda)为原料,在水热条件下反应,得到了2个配合物{[Co(bib)3](ClO4)2}n(1)和{[Cu3(bix)(4.5)](ClO4)3}n(2)(H2pmda未参与反应),对它们进行了元素分析、红外光谱、荧光光谱、单晶和粉末X射线衍射表征。配合物1属于三方晶系,R 空间群,a=b=1.39337(5)nm,c=1.74054(13)nm,V=2.9265(3)nm^3,Mr=828.59,Dc=1.410g·cm^-3,F(000)=1293,μ=0.639mm^-1,Z=3,R1=0.0611,wR2=0.1937(I>(2σ(I))。配合物2也属于三方晶系,P 空间群,a=b=2.33441(15)nm,c=0.71511(9)nm,V=3.3749(5)nm^3,Mr=1561.28,Dc=1.536g·cm^-3,F(000)=1602,μ=1.131mm^-1,Z=2,R1=0.0439,wR2=0.1090(I>(2σ(I))。单晶结构分析表明配合物1为含有36元环的二维网状结构,配合物2为含有84元环的二维网状结构,并通过氢键或π-π堆积使它们扩展成超分子结构。此外,还研究了2个配合物的荧光性质。     

Zn(II), Cu(II), Co(II)与3,5-二硝基苯甲酸-咪唑三元超分子配合物的合成、晶体结构及性质

摘要 在水和甲醇混合溶液中合成了3个配合物[Zn(DNBC)2(Im)2](1), [Cu(DNBC)2(Im)(H2O)](2) [Co1.5(DNBC)4(Im)(CH3OH)(H2O)2](3) (DNBC = 3,5-二硝基苯甲酸, Im = 咪唑), 并进行了常规表征,单晶X-射线衍射测定了3个配合物的晶体结构。结果表明,配合物1采用四配位,且形成扭曲的四面体形式,通过分子间氢键及范德华力形成了三维网状的超分子框架结构。配合物2中金属铜原子采用五配位,分别与四个氧原子和一个咪唑氮原子配位,形成一个扭曲的四方锥体,而且通过羧基和硝基与金属铜连接形成一个一维Z字链的超分子链状结构。配合物3的空间群为p2(1)/n, a = 1.20876(7)nm, b = 2.63287(16)nm, c = 1.36466(9)nm, V = 4.3045(5)nm3, Z = 4, F(000) = 2166, Co…Co原子之间的距离为0.3587nm。在配合物3中,由八面体配位的Co(II)离子与μ-OH2组成的三核金属钴通过氢键与相邻的三核金属钴连接,Co(II)离子与μ-OH2形成一维Z字链,并且配合物的空腔中包含未配位的咪唑和甲醇分子。配合物3的磁学性质测试表明,三核金属Co(II)之间存在着很好的反铁磁交换作用。     

六次甲基四胺－二羧酸银(Ⅰ)的三维非穿插网状聚合配合物的 合成与结构

报道了四齿配位的六次甲基四胺(hmt)与Ag(Ⅰ)形成的三维非穿插网状结构配合物[Ag2(μ4-hmt)(μ3-oga)]·3H2O(1)和[Ag2(μ4-hmt)(μ3-mpa)]·3H2O(2)(oga=2,2'-氧合二乙酸根,mpa=1,3-苯二甲酸根)的合成与结构,标题配合物都是具有六边形框架的蜂窝状三维非穿插网状结构,而包含在其中的二羧酸根均以单齿-双齿的配位形式出现,配合物1(C10H22Ag2N4O8)属单斜晶系,空间群P21/c,a=0.6366(3)nm,b=1.1736(7)nm,c=2.1998(12)nm,β=97.60(6)°,V=1.629(2)nm^3,Z=4,R1=0.0491,ωR2=0.1231。配合物2(C14H22Ag2N4O7)属单斜晶系,空间群P21/c,a=1.2944(4)nm,b=1.1998(7)nm,c=2.3491(14)nm,β=95.49(4)°,V=3.631(3)nm^3,Z=8,R1=0.0664,ωR2=0.1526.     

联苯四甲酸及联吡啶构筑的一维链状银(Ⅰ)配合物的合成及晶体结构

采用水热法合成了一个新颖的配合物{[Ag(4,4′-bpy)][Ag2(H3btc)(H2btc)(4,4′-bpy)2].3H2O}n(1)(H4btc=联苯-2,2′,4,4′-四甲酸;4,4′-bpy=4,4′-联吡啶),并对其进行了元素分析、红外光谱和X射线单晶衍射测定。配合物1属于三斜晶系,空间群为P1,a=1.122 51(6)nm,b=1.554 01(8)nm,c=1.774 59(9)nm,β=91.641 0(10)°,V=2.830 8(3)nm3,Z=2,Dc=1.764 g.cm-3,μ=1.113 mm-1,F(000)=1 508,R1=0.045 0,wR2=0.086 2(I>2σ(I))。在1中,一维线性[Ag(4,4′-bpy)]+阳离子链包含在一维{[Ag2(H3btc)(H2btc)(4,4′-bpy)2]-阴离子双链与游离水分子通过分子间氢键组装成的三维超分子结构中。研究了配合物的热稳定性和电化学性质。     

基于大茴香酸与邻菲咯啉的异双桥联双核铜配合物的水热合成、结构、荧光与电化学性质

通过水热法,由Hmba(methoxybenzoic acid)、Phen(1,10-phenanthroline)与Cu2+离子反应,合成标题配合物[Cu2(μ-OH)(Mba)(Phen)2].(ClO4)2。单晶X射线衍射分析表明,晶体属单斜晶系,空间群为P21/n,晶胞参数:a=1.149 6(2)nm,b=1.623 9(3)nm,c=1.740 4(4)nm,β=106.52(3)°,V=3.115(1)nm3,Z=4,μ(Mo Kα)=16.14 cm-1,F(000)=1 728,R1=0.029 6,wR2=0.075 7(I>2σ(I))。在配合物中,2个中心铜离子均与配位原子构成四配位的变形平面四方形构型,其中1个羟基和1个Hmba的羧基以桥联的方式与2个Cu(Ⅱ)离子配位。最小不对称单元间通过弱相互作用连接成一维螺旋链状结构,链间通过芳环间的π-π堆积,构筑成三维网状结构。此外,研究了配合物的荧光和电化学性质。     

[Cu(1,10-phen)(L-Ile)(H2O)]·NO3的合成、结构及其表征

合成了三元混配配合[Cu(1,10-phen)(L-Ile)(H2O)]NO3(1,10-phen=1,10-邻菲咯啉,L-Ile=L-异亮氨酸),并用元素分析、X射线衍射、摩尔电导、红外、紫外等手段对混配配合物进行了表征.晶体结构分析表明配合物晶体的空间群为P21,晶胞参a=1.1835(5)nm,b=0.6775(5)nm,c=1. 3328(5)nm,β=90. 745(5)°,V=1.0686(10)mm3,μ=1. 062mm-1,Dc= 1.411g/cm3,F(000)=470,R=0.0551,Rw=0.0469.分子中Cu(Ⅰ)离子与一个L-Ile(N,O)配体、一个1,10-phen(N,N)配体及H2O(O)配位形成五配位的变形四方锥构型.     

两个N,N′-亚乙基双(1-苯基-3-亚氨基-1-丁酮)锰(Ⅲ)配合物的合成、表征和晶体结构

合成了两个N,N′－亚乙基双（1－苯基－3－亚氨基－1－丁酮）（简写为H2bzacen)的锰配合物Mn(bzacen).(NO2)EtOH)(1)和Mn(bzacen)(NO2)MeOH)(2)。晶体结构分析表明：配合物1晶体属正交晶系,空间群Pbca,晶胞参数a=2.8173(6)nm,b=2.1946(4)nm,c=0.7683(6)nm,V=4.750(5)nm^3,Z=8, μ=5.71cm^-1,R=0.0540.配合物2晶体属正交晶系,空间君Pbca晶胞参数a=27641(6)nm,b=2,1832(4)jnm,c=0.7705(2)nm,V=4.650(3)nm^3,Z-8, μ=5.81cm^-1,R=0.0564。在这两个配合物中,Mn( Ⅲ）原子均具有畸变的N2O4八面体配位构型,整个晶体通过分子间氢键作用形成一维的无限链, 红外光谱表明,配体在形成配合物后,VC=N和VC＝O和VC－＝C谱带移向低频,NO^-2以一个O原子与Mn（Ⅲ）配位,电子光谱表明存在d-d^*,π－π^*和d－π的跃迁。     

TATP-铜(Ⅱ)-L-氨基酸配合物的合成、表征及其SOD活性

合成了三种新的配合物[Cu(TATP)(L-Val)(H2O)]ClO4.0.5H2O(1)、[Cu(TATP)(L-Ser)(H2O)]ClO4(2)、[Cu(TATP)(L-Arg)(H2O)]2ClO4.0.5H2O(3)(TATP=1,4,8,9-四氮三联苯,L-Val=L-缬氨酸,L-Ser=L-丝氨酸,L-Arg=L-精氨酸),并通过元素分析、红外光谱、紫外-可见光谱和摩尔电导率对其进行了表征。此外,用改进的氮蓝四唑(NBT)光还原法测定了上述配合物以及配合物[Cu(TATP)(L-Tyr)(H2O)]ClO4.H2O(4)(L-Tyr=L-酪氨酸)对O2-.歧化的催化作用。结果表明,配合物均具有良好的超氧化歧化酶(SOD)活性,在0.2～0.9μmol.L-1浓度范围内抑制率达到50%以上,活性大小按1>3>2>4排列。     

Synthesis,Crystal Structure and Magnetic Properties of a Novel Copper Inverse-9-metallacrown-3 Complex

<正>The reaction of phenyl 2-pyridyl ketoxime(PhPyCNOH)with Cu(NO_3)_2·3H_2O has led to a triangular complex Cu_3(OH)(PhPyCNO)_3(NO_3)·NO_3·H_2O 1 containing the[Cu_3(μ_2-OH)]~(5+) core and possessing the very rare inverse 9-metallacrown-3 motif created by the bridging oximate groups.Crystallographic data for 1:C_(36_H_(30)N_8O_(11)Cu_3,M_r=941.30,monoclinic,space group C2/c,a =18.815(9),b=33.888(15),c=14.307(7)(?),β=118.945(6)°,V=7983(6)(?)~3,Z=8,D_c=1.566 g/cm~3,n=1.652 mm~(-1),F(000)= 3816,R= 0.0644 and wR= 0.1393 for 3468 observed reflections(I2σ(I)).Preliminary variable-temperature magnetic susceptibility studies reveal an antiferroma-gnetically -coupled system showing antisymmetric exchange.     

Antisymmetric exchange in triangular tricopper(II) complexes: correlation among structural, magnetic, and electron paramagnetic resonance parameters

Two new trinuclear copper(II) complexes, [Cu(3)(μ(3)-OH)(daat)(Hdat)(2)(ClO(4))(2)(H(2)O)(3)](ClO(4))(2)·2H(2)O (1) and [Cu(3)(μ(3)-OH)(aaat)(3)(H(2)O)(3)](ClO(4))(2)·3H(2)O (2) (daat = 3,5-diacetylamino-1,2,4-triazolate, Hdat = 3,5-diamino-1,2,4-triazole, and aaat = 3-acetylamino-5-amino-1,2,4-triazolate), have been prepared from 1,2,4-triazole derivatives and structurally characterized by X-ray crystallography. The structures of 1 and 2 consist of cationic trinuclear copper(II) complexes with a Cu(3)OH core held by three N,N-triazole bridges between each pair of copper(II) atoms. The copper atoms are five-coordinate with distorted square-pyramidal geometries. The magnetic properties of 1 and 2 and those of five other related 1,2,4-triazolato tricopper(II) complexes with the same triangular structure (3-7) (whose crystal structures were already reported) have been investigated in the temperature range of 1.9-300 K. The formulas of 3-7 are [Cu(3)(μ(3)-OH)(aaat)(3)(H(2)O)(3)](NO(3))(2)·H(2)O (3), {[Cu(3)(μ(3)-OH)(aat)(3)(μ(3)-SO(4))]·6H(2)O}(n) (4), and [Cu(3)(μ(3)-OH)(aat)(3)A(H(2)O)(2)]A·xH(2)O [A = NO(3)(-) (5), CF(3)SO(3)(-) (6), or ClO(4)(-) (7); x = 0 or 2] (aat =3-acetylamino-1,2,4-triazolate). The magnetic and electron paramagnetic resonance (EPR) data have been analyzed by using the following isotropic and antisymmetric exchange Hamiltonian: H = -J[S(1)S(2) + S(2)S(3)] - j[S(1)S(3)] + G[S(1) × S(2) + S(2) × S(3) + S(1) × S(3)]. 1-7 exhibit strong antiferromagnetic coupling (values for both -J and -j in the range of 210-142 cm(-1)) and antisymmetric exchange (G varying from to 27 to 36 cm(-1)). At low temperatures, their EPR spectra display high-field (g < 2.0) signals indicating that the triangles present symmetry lower than equilateral and that the antisymmetric exchange is operative. A magneto-structural study showing a lineal correlation between the Cu-O-Cu angle of the Cu(3)OH core and the isotropic exchange parameters (J and j) has been conducted. Moreover, a model based on Moriya's theory that allows the prediction of the occurrence of antisymmetric exchange in the tricopper(II) triangles, via analysis of the overlap between the ground and excited states of the local Cu(II) ions, has been proposed. In addition, analytical expressions for evaluating both the isotropic and antisymmetric exchange parameters from the experimental magnetic susceptibility data of triangular complexes with local spins (S) of (1)/(2), (3)/(2), or (5)/(2) have been purposely derived. Finally, the magnetic and EPR results of this work are discussed and compared with those of other tricopper(II) triangles reported in the literature.     

Co(II), Mn(II) and Cu(II)-directed coordination polymers with mixed tetrazolate-dicarboxylate heterobridges exhibiting spin-canted, spin-frustrated antiferromagnetism and a slight spin-flop transition

Three new paramagnetic ion-directed coordination frameworks, {[Co(4)(H(2)O)(2)(μ(3)-OH)(2)(atz)(2)(nip)(2)]·3H(2)O}(n) (1), {[Mn(4)(H(2)O)(2)(μ(3)-OH)(2)(atz)(2)(nip)(2)]·H(2)O·MeOH}(n) (2) and {[Cu(2)(H(2)O)(μ(3)-OH)(atz)(nip)]·2H(2)O}(n) (3), were, respectively, obtained by solvo-/hydrothermal reactions of 5-amino-1H-tetrazole (Hatz), 5-nitroisophathalic acid (H(2)nip) with an inorganic Co(II), Mn(II) or Cu(II) salt. The former two complexes are two-dimensional (2D) covalent layers built from butterfly-shaped tetranuclear M(4)(μ(3)-OH)(2) clusters and double atz(-) and nip(2-) linkers. Whereas complex 3 is a 3D framework with scarcely observed corner-sharing Cu(3)(μ(3)-OH) Δ-chains extended by nip(2-) linkages, in which the anionic atz(-) ligand acts as a reinforcement to consolidate the Δ-chain. Magnetically, due to the interplay of the anisotropy of spin carrier and magnetic exchange interactions from the adjacent spin carriers, the complexes exhibit spin-canted antiferromagnetism with a Néel temperature lower than 2.0 K for 1 and an antiferromagnetic ordering with a slight field-induced spin-flop transition for 2. In contrast, complex 3 with a local Kagomé sublattice displays spin-frustrated antiferromagnetic behavior with magnetic ordering at 16.0 K.     

Contribution of spin and anisotropy to single molecule magnet behavior in a family of bell-shaped Mn11Ln2 coordination clusters

The synthesis, structures, and magnetic properties of a family of isostructural "bell-shaped" heterometallic coordination clusters [Mn(III)(9)Mn(II)(2)La(III)(2)(μ(4)-O)(7)(μ(3)-O)(μ(3)-OH)(2)(piv)(10.8)(O(2)CC(4)H(3)O)(6.2)(NO(3))(2)(OH(2))(1.5)(MeCN)(0.5)]·12CH(3)CN·2H(2)O (1) and [Mn(III)(9)Mn(II)(2)Ln(2)(μ(4)-O)(7)(μ (3)-O)(μ(3)-OH)(2)(piv)(10.6)(O(2)CC(4)H(3)O)(6.4)(NO(3))(2)(OH(2))]·nCH(3)CN·H(2)O (Ln = Pr(III), n = 8 (2); Ln = Nd(III), n = 10 (3); Ln = Eu(III), n = 17 (4); Ln = Gd(III), n = 13 (5); piv = pivalate) are reported. The complexes were obtained from the reaction of [Mn(III)(2)Mn(II)(4)O(2)(piv)(10)(4-Me-py)(2.5)(pivH)(1.5)] and Ln(NO(3))(3)·6H(2)O in the presence of 2-furan-carboxylic acid (C(4)H(3)OCOOH) in CH(3)CN. Compounds 1-5 are isomorphous, crystallizing in the triclinic space group P1 with Z = 2. The Mn(III) and Mn(II) centers together form the shell of the bell, while the two Ln(III) centers can be regarded as the bell's clapper. The magnetic properties of 1-4 reveal dominant antiferromagnetic interactions between the magnetic centers leading to small spin ground states; while those of 5 indicate similar antiferromagnetic interactions between the manganese ions but with unusually strong ferromagnetic interactions between the Gd(III) ions leading to a large overall spin ground state of S = 11-12. While ac and dc magnetic measurements confirmed that Mn(11)Gd(2) (5) is a single-molecule magnet (SMM) showing hysteresis loops at low temperatures, compounds 1-4 do not show any slow relaxation of the magnetization, indicating that the S = 7 spin of the ferromagnetic Gd(2) unit in 5 is a necessary contribution to its SMM behavior.     

Highly-connected, porous coordination polymers based on [M4(μ3-OH)2] (M = Co(II) and Ni(II)) clusters: different networks, adsorption and magnetic properties

Two new 3D coordination polymers based on tetranuclear clusters, {[Co(4)(ina)(5)(μ(3)-OH)(2)(H(2)O)(EtOH)]-NO(3)·2EtOH·4H(2)O}(n) (1) (Hina = isonicotinic acid) and {[Ni(4)(ina)(5)(μ(3)-OH)(2)(EtCOO)]·6EtOH·2H(2)O}(n) (2), were obtained by the solvothermal reactions from Hina and different metal salts. The [M(4)(μ(3)-OH)(2)] cores act as 7- and 9-connected nodes and are extended through ina linkers to highly-connected frameworks with vmr net for 1 and bct-9-P2(1)/c net for 2. Both the desolvated frameworks display effective gas sorption capacities of N(2) and H(2) with Langmuir surface areas of 546 and 917 m(2) g(-1) for 1 and 2, respectively. Magnetic studies show spin canting and spin-glass behaviours with T(g) = 6.0 and 15.0 K for 1 and 2, respectively. The intra- and inter-tetramer coupling interactions and cooperative magnetic correlation greatly influence the bulk magnetic behaviours in this system.     

Assembly of trinuclear and tetranuclear building units of Cu2+ towards two 1D magnetic systems: synthesis and magneto-structural correlations

Two new 1D coordination polymers, [Cu(3)(μ(3)-OH)(ppk)(3)(μ-N(CN)(2))(OAc)](n) (1) and {[Cu(4)(pdmH)(2)(pdm)(2)(μ(2)-OH)(H(2)O)]·ClO(4)}(n) (2) based on two different blocking ligands phenyl-2-pyridylketoxime (ppk) and pyridine-2,6-dimethanol (pdmH(2)) have been synthesized and were characterized by X-ray single crystal structural analysis. In compound 1, the hydroxido-bridged trinuclear core, {Cu(3)(μ(3)-OH)(ppk)(3)(OAc)}, acts as secondary building units and are connected by the N(CN)(2)(-) anions resulting in a one dimensional (1D) coordination polymer. The 1D coordination chains undergo π-π interactions giving rise to a 3D supramolecular framework. In compound 2, tetrameric [Cu(4)(pdmH)(2)(pdm)(2)(H(2)O)](2+) cores are linked via hydroxido groups forming a zigzag 1D coordination chain where non-coordinated ClO(4)(-) ions are intercalated between the chains. Variable temperature magnetic susceptibility study of suggests that Cu(II) ions in the trinuclear Cu(3)(μ(3)-OH) cores are antiferromagnetically coupled with J = -459.7 cm(-1) and g = 2.11 and the trinuclear cores are further weakly coupled antiferromagnetically (zj' = -5.25 cm(-1)) through the N(CN)(2)(-) bridging ligand. Investigation of the magnetic properties of reveals that Cu(II) ions are coupled antiferromagnetically in the tetranuclear core with J = -27.1 cm(-1) and g = 2.17; the Cu(II)(4) building units are further coupled antiferromagnetically with zj' = -9.65 cm(-1). The experimental magnetic behaviours of 1 and 2 are correlated by first principle DFT calculations which provide a qualitative understanding of the origin of antiferromagnetic interactions in both cases.     

An isomorphous series of cubic, copper-based triazolyl isophthalate MOFs: linker substitution and adsorption properties

An isomorphous series of 10 microporous copper-based metal-organic frameworks (MOFs) with the general formulas (∞)(3)[{Cu(3)(μ(3)-OH)(X)}(4){Cu(2)(H(2)O)(2)}(3)(H-R-trz-ia)(12)] (R = H, CH(3), Ph; X(2-) = SO(4)(2-), SeO(4)(2-), 2 NO(3)(2-) (1-8)) and (∞)(3)[{Cu(3)(μ(3)-OH)(X)}(8){Cu(2)(H(2)O)(2)}(6)(H-3py-trz-ia)(24)Cu(6)]X(3) (R = 3py; X(2-) = SO(4)(2-), SeO(4)(2-) (9, 10)) is presented together with the closely related compounds (∞)(3)[Cu(6)(μ(4)-O)(μ(3)-OH)(2)(H-Metrz-ia)(4)][Cu(H(2)O)(6)](NO(3))(2)·10H(2)O (11) and (∞)(3)[Cu(2)(H-3py-trz-ia)(2)(H(2)O)(3)] (12(Cu)), which are obtained under similar reaction conditions. The porosity of the series of cubic MOFs with twf-d topology reaches up to 66%. While the diameters of the spherical pores remain unaffected, adsorption measurements show that the pore volume can be fine-tuned by the substituents of the triazolyl isophthalate ligand and choice of the respective copper salt, that is, copper sulfate, selenate, or nitrate.     

Synthesis, characterization and structural transformation of a discrete tetragonal metalloprism

A novel M(2)L(4) tetragonal metalloprism, [(NO(3)(-))?{Cu(2)(μ-Hdpma)(4)}(NO(3))(2)](NO(3))(5) (1), was prepared from the self-assembly reaction of Cu(NO(3))(2)·3H(2)O and flexible clip-like organic ligand di(3-pyridylmethyl)amine (dpma) under acidic conditions. The cationic prismatic hollow structure of 1 hosts one nitrate anion via both metal-ligand dative bonds and electrostatic interactions. Metalloprism 1 can dissolve in water and its prismatic structure remains intact as supported by ESI-MS data. When metalloprism 1 was treated with sodium thiocyanate and sodium azide in aqueous solutions, two polymeric coordination architectures, [Cu(μ-Hdpma)(2)(NCS)(2)](NO(3))(2) (2) and [Cu(μ-dpma)(2)(μ-1,1-N(3))(μ-1,3-N(3))] (3), formed at room temperature, respectively. Polymer 2 has a two-dimensional sheet structure showing a simple rhombic 4(4)-sql topology in network connectivity, whereas polymer 3 gives a three-dimensional uninodal pcu net. The conformation of the flexible ditopic ligand is varied from a trans-trans-syn conformer in 1 to a trans-trans-anti conformer in 2 and to a trans-gauche-anti conformer in 3. The observations imply the occurrence of structural transformation from a discrete metalloprism into polymeric coordination architectures via a decoordination/rearrangement process. Magnetic studies of metalloprism 1 suggest that the two Cu(II) centers are weakly antiferromagnetically coupled. The spins communicate via the nitrate template while the Cu···O(nitrate) interactions are weak. For polymer 3, a ferromagnetically coupled system (J(2) = +17.6 cm(-1)) is operative between two Cu(II) centers bridged by end-on azidos and an antiferromagnetic coupling (J(1) = -7.7 cm(-1)) between two Cu(II) centers with end-to-end azidos. In contrast to relatively large coupling values of the reported examples, the weak ferromagnetic interaction results from insufficient spin delocalization between two Cu(II) centers.     

Self-assembly and characterization of copper 3,4-pyridinedicarboxylate complexes based on a variety of polynuclear hydroxo clusters

Self-assembly of copper(ii) ion, 3,4-pyridinedicarboxylate (PDC), and 1,10-phenanthroline (phen) under basic conditions at 100 °C affords four PDC linked copper(ii) complexes, [Cu(4)(μ(2)-OH)(3)(μ(3)-OH)(PDC)(phen)(4)](n)·n(PDC)·11.5 nH2O (1), [Cu(4)(μ(2)-OH)(2)(μ(3)-OH)(2)(PDC)(phen)(4)](n)·n(PDC)· 11.5 nH(2)O (2), [Cu(8)(μ(2)-OH)(2)(μ(3)-OH)(6)(PDC)(2)(phen)(8)]·2(PDC)·23 H(2)O (3), and [Cu(3.5)(μ(2)-OH)(3) (PDC)(2)(phen)](n) (4). 1-4 are copper hydroxo complexes, and 1, 2 and 3 co-crystallized from the one-pot reaction. X-ray single crystal diffraction analyses indicate that complexes 1 and 2 are linkage isomers and contain tetranuclear copper cluster cores with different geometry, and that PDC links the cluster core to form a one-dimensional chain. Complex 3 is a discrete step-like octanuclear copper hydroxo cluster complex. The involvement of hydroxo and phen in the coordination makes some coordination sites of PDC idle, which leads to rich hydrogen bonds and π-π interactions in complexes 1, 2 and 3. Complex 4 contains two types of copper hydroxo cluster cores: chair-like tetranuclear and linear trinuclear units, and the cluster cores are linked by PDC to a double-layer metal-organic framework. Magnetic properties of 1, 3 and 4 were investigated. The results reveal that complexes 3 and 4 exhibit strong antiferromagnetic interactions whereas ferromagnetic coupling is predominant for complex 1. The magnetic properties are analyzed in connection with their structures.     

Self-assembly, crystal structures, and properties of metal-2-sulfoterephthalate frameworks based on [M4(μ3-OH)2]6+ clusters (M = Co, Mn, Zn and Cd)

Hydro- and solvo-thermal reactions of d-block metal ions (Mn(2+), Co(2+), Zn(2+) and Cd(2+)) with monosodium 2-sulfoterephthalate (NaH(2)stp) form six 3D coordination polymers featuring cluster core [M(4)(μ(3)-OH)(2)](6+) in common: [M(2)(μ(3)-OH)(stp)(H(2)O)] (M = Co (1), Mn (2) and Zn (3)), [Zn(2)(μ(3)-OH)(stp)(H(2)O)(2)] (4), [Zn(4)(μ(3)-OH)(2)(stp)(2)(bpy)(2)(H(2)O)]·3.5H(2)O (5) and [Cd(2)(μ(3)-OH)(stp) (bpp)(2)]·H(2)O (6) (stp = 2-sulfoterephthalate, bpy = 4,4'-bipyridine and bpp = 1,3-di(4-pyridyl)propane). All these coordination polymers were characterized by single crystal X-ray diffraction, IR spectroscopy, thermogravimetric and elemental analysis. Complexes 1-3 are isostructural coordination polymers with 3D frameworks based on the chair-like [Zn(4)(μ(3)-OH)(2)](6+) core and the quintuple helixes. In complex 4, there exist double helixes in the 3D framework based on the chair-like cluster cores. Complex 5 possesses a 2-fold interpenetration structure constructed from boat-like cluster core and the bridging ligands stp and bpy. For complex 6, the chair-like cluster cores and stp ligands form a 2D (4,4) network which is further pillared by bpp linkers to a 3D architecture. Magnetic studies indicate that complex 1 exhibits magnetic ordering below 4.9 K with spin canting, and complex 2 shows weak antiferromagnetic coupling between the Mn(II) ions with g = 2.02, J(wb) = -2.88 cm(-1), J(bb) = -0.37 cm(-1). The fluorescence studies show that the emissions of complexes 3-6 are attributed to the ligand π-π* transition.