两个3d-4f杂核配合物[Fe(phen)3]2[FeLn(H2O)(tiron)3]·6H2O的合成、晶体结构和磁性(Ln=HoⅢ,YbⅢ)

Ln2O3、硝酸铁、邻菲罗啉和钛铁试剂(tiron)通过水热法自组装合成了2个异质同晶的3d-4f杂核配合物[Fe(phen)3]2[FeLn(H2O)(tiron)3]·6H2O,其中,Ln=HoⅢ(1)和YbⅢ(2)。X-射线单晶衍射分析表明,晶体属立方晶系,P213空间群。3个tiron4-配体利用酚氧桥联Ln3+和Fe3+形成具有C3对称性的[FeLn(H2O)(tiron)3]6-异双核配位单元,其中七配位的Ln3+呈现一种畸变的单帽反三棱柱配位构型。配阳离子[Fe(phen)3]3+通过phen-phen之间的π-π相互作用和与配阴离子间的静电引力等作用组装成三维的超分子。在2～300 K温度范围内测试了配合物的变温磁化率,结果表明,Ln(Ⅲ)-Fe(Ⅲ)之间存在反铁磁性相互作用。     

三维混核Cu(Ⅰ)-Tb(Ⅲ)配位化合物的溶剂热合成、晶体结构和荧光性质

由溶剂热法合成了一种新型混核化合物{[CuTb2(INAIP)3(HCOO)(H2O)3].3H2O}n(1)(INAIP=异烟酰胺吡啶基异酞酸根),并对其进行了元素分析、IR及X-射线衍射法表征。晶体结构研究表明:配合物1属于三斜晶系,P1空间群。配合物1是由配体异烟酰胺吡啶基异酞酸连接而成的三维二重贯穿结构。荧光测试研究表明配合物1具有典型的稀土铽离子绿色荧光。     

5-异烟酰胺异钛酸构筑的Cu(Ⅰ)-Eu和Ni(Ⅱ)-Eu化合物的合成、晶体结构和性质研究(英文)

利用不同过渡金属盐在溶剂热中合成了2个杂核化合物{[CuEu2(INAIP)3(HCOO)(H2O)3]·3H2O}n(1)和{[NiEu2(INAIP)4(H2O)4]·4H2O}n(2)(INAIP=异烟酰胺吡啶基异酞酸根),并对其进行了元素分析、IR及X-射线衍射法表征。晶体结构研究表明:配合物1和2都属于三斜晶系,P1空间群。晶胞参数:配合物1 a=1.088 7(3)nm,b=1.515 8(4)nm,c=1.564 4(2)nm,V=2.333 2(10)nm3,Z=2,Dc=1.955 g·cm-3,μ=3.203 mm-1,F(000)=1352,Rint=0.027,R1=0.0505,wR2=0.1309。配合物2 a=1.013 4(3)nm,b=1.083 6(6)nm,c=1.374 1(2)nm,V=1.453 0(9)nm3,Z=1,Dc=1.878 g·cm-3,μ=2.554 mm-1,F(000)=818,Rint=0.045 8,R1=0.034 1,wR2=0.086 9。配合物1是由配体异烟酰胺吡啶基异酞酸连接而成的三维二重贯穿sqc27拓扑结构,而配合物2是由配体异烟酰胺吡啶基异酞酸连接稀土铕离子形成二维层状结构,该二维层通过Ni-O和Ni-N键连接成三维非贯穿网络结构。配合物1和2具有典型的稀土铕离子红色荧光和高的热稳定性。     

异烟酰胺基间苯二甲酸根构筑的混核镍-铽配合物的合成、晶体结构及荧光性质

水热合成了一个的杂金属配合物{[NiTb2(INAIP)4(H2O)6].8H2O}n(1)(INAIP2-=异烟酰胺吡啶基异酞酸根),并对其进行了元素分析、IR及X-射线衍射法表征。晶体结构研究表明:配合物1属于三斜晶系,P1空间群。配合物1是由配体异烟酰胺吡啶基异酞酸连接而成的二维双层状结构,该二维层通过氢键延伸为三维超分子结构。荧光测试研究表明配合物1具有典型的稀土铽离子绿色荧光。     

一维链状氰根桥联配合物[Pr(bet)_2(H_2O)_3Fe(CN)_6]_n的合成、晶体结构和磁性

以K3Fe(CN) 6 ,甜菜碱和Pr(NO3) 3·6H2 O合成了一维链状氰根桥联配合物 [Pr(bet) 2 (H2 O) 3Fe(CN) 6 ] n,并通过元素分析、红外光谱进行了表征。利用单晶X射线四圆衍射测定了配合物的晶体结构 ,晶体属正交晶系 ,P2 1 2 1 2 1 空间群 ,晶胞参数a =0 9634 ( 2 )nm ,b =1 45 5 6( 3)nm ,c =1 7798( 9)nm ,V =2 495 9( 9)nm3,Dc=1 70 6Mg·m3,Z =4,GOF =0 970 ,F( 0 0 0 ) =12 84,R1 =0 0 30 7。变温磁化率 ( 1 8～ 30 0K)表明在Pr3 和Fe3 离子间存在弱的反铁磁相互作用。     

一维链状氰根桥联配合物[Pr（bet）2（H2O）3Fe（CN）6]n的合成、晶体结构和磁性

以K3Fe(CN)6,甜菜碱和Pr(NO3)3．6H2O合成了一维链状氰根桥联配合物[Pr(bet)2(H2O)3Fe(CN)6]n,并通过元素分析,红外光谱进行了表征,利用单晶X射线四圆衍射测定了配合物的晶体结构,晶体属正交晶系,P212121空间群,晶胞参数a=0.9634(2)nm,b=1.4556(3)nm,c=1.7798)9nm,V=24050(9)nm^3,Dc=1.706Mg.m^3,Z＝4,GOF＝0．970,F（000）＝1284,R1＝0．0307,变温磁化率（1．8－300K）表明在Pr^3 和Fe^3 离子间存在弱的反铁磁相互作用。     

一种新奇的d-f异双核配合物[Fe(phen)_3]_2[FeCe(tiron)_3]·6H_2O的水热合成、晶体结构和磁性

硝酸铁,硝酸铈,邻菲咯啉(phen)和钛铁试剂(Tiron)通过水热方法合成了一种d-f异双核配合物[Fe(phen)3]2[FeCe(tiron)3]·6H2O,tiron=C6H2O8S2。X-射线单晶衍射分析表明,晶体属立方晶系,P213空间群,晶胞参数为:a=2.19409(4)nm,V=10.5624(3)nm3,Z=4,F(000)=4648,R1=0.0451,wR2=0.1077,S=1.072。在具有C3对称性的[FeCe(tiron)3]6-单元中,Fe髥与6个酚氧配位形成一个反三棱柱配位多面体,Ce髥则与3个桥联的酚氧μ2-O和3个磺酸基的氧形成另一个与FeO6共用底面的反三棱柱配位多面体CeO6。配阳离子通过phen-phen之间的π-π相互作用和与配阴离子间的静电引力等作用组装成一种三角梅状准主/客体型的超分子。在2~300K温度范围内测试了配合物的变温磁化率,结果表明,Ce髥-Fe髥之间存在典型的反铁磁性相互作用。     

氰根桥联CrⅢ-CuⅡ一维配合物{[Cu(cyclam)][Cr(bpb)(CN)2]2·2H2O}n的合成、结构与磁性

基于构筑单元K[Cr(bpb)(CN)2]和[Cu(cyclam)](Cl O4)合成了一个氰根桥联的CrⅢ-CuⅡ一维化合物{[Cu(cyclam)][Cr(bpb)(CN)2]2·2H2O}n[cyclam=1,4,8,11-四氮杂环十四烷;bpb2-=1,2-二(2-吡啶甲酰胺基)苯](1),并通过X-衍射单晶分析表征其结构特征。结果表明:化合物1是由氰根桥联的2种不同金属组成的聚合物,其结构属于三斜晶系,P1空间群,a=0.9667 3(19)nm,b=1.345 1(3)nm,c=1.382 0(3)nm,α=77.12(3)°,β=76.93(3)°,γ=82.02(3)°,V=1.699 1(6)nm3,Z=2,Dc=1.567 g·cm-3,μ=1.086 mm-1,F(000)=828,R1=0.0413,w R2=0.1200。磁性研究表明:配合物1中的CrⅢ离子和CuⅡ离子之间存在弱的铁磁耦合作用。     

配合物{[(C9H7)3Yb]2Cl}[Na·6THF] (Ⅰ)的合成及其还原生成(C9H7)2Yb·2THF (Ⅱ)的研究、配合物I和II的晶体结构

三氯化钇与茚基钠以1∶2摩尔比于THF中,在50 ℃下反应,歧化生成了离子型配合物[(C9H7)3Yb]2Cl[Na·6THF] (Ⅰ). X射线结构分析表明,配合物Ⅰ是由阴离子{[(C9H7)3Yb]2Cl}-及阳离子[Na·6THF] 组成的离子对,阴离子由一个氯桥把两个(C9H7)3Yb基团连接在一起.配合物[(C9H7)3Yb)2Cl][Na·6THF]为三斜晶系,P1空间群,晶胞参数,a=1.0682(2) nm, b=1.2687(3) nm, c=1.2869(2) nm,α=87.223(1)°, β=81.755°, γ=88.217°, V=1.7273(1) nm3, Z=1.配合物I的结构用重原子法确定,用full-matrix least-squares法修正,一致性因子为 R=0.062, Rw=0.072.配合物{[(C9H7)3Yb]2Cl}[Na·6THF]与金属钠反应,生成(C9H7)2Yb·2THF (Ⅱ).配合物Ⅱ的分子结构经过了X射线的表证.     

两个异亚硝基乙酰丙酮-n-芳基亚胺Pd(Ⅱ)配合物的合成、谱学性质和PdCl(C6H5一IAI)(C6H5NH2)的晶体结构

合成了两个异亚硝基乙酰丙酮-n-芳基亚胺的Pd(Ⅱ)配合物,PdCl(C6H5一IAI)(C6H5NH2)(1)和PdCl(P-CH3C6H4－IAI)(P-CH3C6HtNH2)(2),并测定了配合物1的晶体结构.配合物1晶体属正交晶系,空间群为Pca2l,晶胞参数a一1.858 7(4)nm,b＝0.938 0(2)nm,c一2.123 7(4)nm,2=8,F(000)一1 760,μ＝1.160 mm-1,R1＝O.027 二齿Schiff碱配体的异亚硝基(肟基)的N原子和亚胺的N原子,苯胺基N原子和CL-离子与Pd(Ⅱ)配位,形成PdN3Cl平面正方形配位构型.红外和喇曼光谱表明,形成配合物后νC=O和νc=N 移向低频,而vN-.o则移向高频.电子光谱说明存在π-π*和d-π*跃迁     

Magnetic properties of cyano-bridged Ln3+-M3+ complexes. Part I: trinuclear complexes (Ln3+ = La, Ce, Pr, Nd, Sm; M3+ = FeLS, Co) with bpy as blocking ligand

The reaction of Ln(NO3)3(aq) with K3[Fe(CN)6] or K3[Co(CN)6] and 2,2'-bipyridine in water/ethanol led to eight trinuclear complexes: trans-[M(CN)4(mu-CN)2{Ln(H2O)4(bpy)2}2][M(CN)6].8H2O (M = Fe3+ or Co3+, Ln = La3+, Ce3+, Pr3+, Nd3+, and Sm3+). The structures for the eight complexes [La2Fe] (1), [Ce2Fe] (2), [Pr2Fe] (3), [Nd2Fe] (4), [Ce2Co] (5), [Pr2Co] (6), [Nd2Co] (7), and [Sm2Co] (8) have been solved; they crystallize in the triclinic space group P and are isomorphous. They exhibit a supramolecular 3D architecture through hydrogen bonding and pi-pi stacking interactions. A stereochemical study of the nine-vertex polyhedra of the lanthanide ions, based on continuous shape measures, is presented. No significant magnetic interaction was found between the lanthanide(III) and the iron(III) ions.     

Synthesis, structures, and magnetic properties of a series of cyano-bridged Fe-Mn bimetallic complexes

The preparation and crystal structures of five cyano-bridged Fe-Mn complexes, [(bipy)2Fe(II)(CN)2Mn(II)(bipy)2]2(ClO4)4 (1), [(bipy)2Fe(II)(CN)2Mn(II)(DMF)3(H2O)]2(ClO4)4 (2), {[(Tp)Fe(III)(CN)3]2Mn(II)(DMF)2(H2O)}2 (3), {[(Tp)Fe(III)(CN)3]2Mn(II)(DMF)2}n (4), and Na2[Mn(II)Fe(II)(CN)6] (5) (bipy = 2,2'-bipyridine, Tp = tris(pyrazolyl)hydroborate), are reported here. Compounds 1-4 contain the basic Fe2(CN)4Mn2 square building units, of which 1-3 show the motif of discrete molecular squares of Fe2(CN)4Mn2 and 4 possesses a 1D double-zigzag chain-like structure, while compound 5 is a 3D cubic framework analogous to that of Prussian blue. Compounds 1 and 2 show weak ferromagnetic interactions between two Mn(II) ions through the bent -NC-Fe(II)-CN- bridges. Compound 3 shows weak antiferromagnetic coupling between the Fe(III) and Mn(II) ions, while compound 4 displays a metamagnetic-like behavior with TN = 5.2 K and Hc = 10.5 kOe. Compound 5 exhibits a ferromagnetic ordering with Tc= 3.5 K, coercive field, Hc, = 330 G, and a remnant magnetization of 503 cm3 Oe mol(-1).     

Cyanide-Bridged Fe(III)-Cu(II) Complexes: Jahn-Teller Isomerism and Its Influence on the Magnetic Properties

We report here the synthesis and characterization of four dinuclear cyanide-bridged Fe(III)-Cu(II) complexes, based on a tetra- or a pentadentate bispidine ligand (L(1) or L(2), respectively; bispidines are 3,7-diazabiyclo[3.3.1]nonane derivatives) coordinated to the Cu(II) center, and a tridentate bipyridineamide (bpca) coordinated to the low-spin Fe(III) site, with cyanide groups completing the two coordination spheres, one of them bridging between the two metal ions. The four structurally characterized complexes [{Fe(bpca)(CN)(3)}{Cu(L(1)·H(2)O)}]BF(4), [{Fe(bpca)(CN)(3)}{Cu(L(2))}][Fe(bpca)(CN)(3)]·5H(2)O, [{Fe(bpca)(CN)(3)}{Cu(L(2)·MeOH)}]PF(6)·MeOH·H(2)O, and [{Fe(bpca)(CN)(3)}{Cu(L(2))}]PF(6)·2H(2)O belong to different structural isomers. The most important differences are structurally and electronically enforced (direction of the pseudo-Jahn-Teller mode) strong or weak interactions of the copper(II) center with the cyanide bridge. The related strength of the magnetic coupling of the two centers is analyzed with a combination of experimental magnetic, electron paramagnetic resonance (EPR), electronic spectroscopic data together with a ligand-field theory- and density functional theory (DFT)-based analysis.     

Structural and magnetic studies on cyano-bridged rectangular Fe2M2 (M = Cu, Ni) clusters

Using the tricyano precursor, (Bu4N)[(Tp)Fe(CN)3] (Tp = Tris(pyrazolyl) hydroborate) (1), four new tetranuclear clusters, [(Tp)Fe(CN)3Cu(Tp)]2.2H2O (2), [(Tp)Fe(CN)3Cu(bpca)]2.4H2O (3) (bpca = bis(2-pyridylcarbonyl)amidate anion), [(Tp)Fe(CN)3Ni(tren)]2(ClO4)2.2H2O (4) (tren = tris(2-amino)ethylamine), and [(Tp)Fe(CN)3Ni(bipy)2]2[(Tp)Fe(CN)3]2.6H2O (5) (bipy = 2,2'-bipyridine), have been synthesized and structurally characterized. The four clusters possess similar square structures, where FeIII and MII (M = CuII or NiII) ions alternate at the rectangle corners. There exist intermolecular - stacking interactions through pyrazolyl groups of Tp- ligands in complexes 2 and 4, which lead to 1D chain structures. Complex 5 shows a 3D network structure through the coexistence of - stacking effects and hydrogen-bonding interactions. Magnetic studies show intramolecular ferromagnetic interactions in all four clusters. The exchange parameters are +11.91 and +1.38 cm(-1) for clusters 2 and 3, respectively, while uniaxial molecular anisotropy can be detected in complex 3 due to the distorted core in its molecular structure. Complex 4 has a ground state of S = 3 and shows SMM behavior with an effective energy barrier of U = 18.9 cm(-1). Unusual spin-glass-like dynamic relaxations are observed for complex 5.     

Syntheses, structures, and magnetic properties of cyano-bridged heterobimetallic complexes based on [Fe(bpca)(CN)3]-

Two new cyano-bridged one-dimensional heterobimetallic coordination polymers, [(bpca)(2)Fe(III)(2)(CN)(6)Cu(H(2)O)(2).1.5H(2)O](n)() (2) and [(bpca)Fe(III)(CN)(3)Cu(bpca)(H(2)O).H(2)O](n)() (3), and a trinuclear complex, [(bpca)(2)Fe(III)(2)(CN)(6)Mn(CH(3)OH)(2)(H(2)O)(2)].2H(2)O (4), have been synthesized using the tailored tricyanometalate precursor (Bu(4)N)[Fe(bpca)(CN)(3)].H(2)O (1) (Bu(4)N(+) = tetrabutylammonium cation; bpca = bis(2-pyridylcarbonyl)amidate anion) as a building block and structurally characterized. In complex 2, the Cu(II) ions are six-coordinated in an elongated distorted octahedral environment, and they are linked by distorted octahedrons of [Fe(bpca)(CN)(3)](-) to form 1D chain of squares. Complex 3 is an unexpected chiral heterobimetallic helical chain complex, in which the helical chain consists of the asymmetric unit of [(bpca)Fe(CN)(3)Cu(bpca)(H(2)O)]. In complex 4, there are two independent trinuclear clusters in one asymmetric unit, and the coordination modes of the two methanol and two water molecules coordinating to the central Mn(II) ion are different (cis and trans). Complex 2 shows metamagnetic behavior with a Neel temperature of T(N) = 2.2 K and a critical field of 250 Oe at 1.8 K, where the cyanides mediate the intrachain ferromagnetic coupling between the Cu(II) and Fe(III) ions. Complex 3 shows ferromagnetic coupling between Cu(II) and Fe(III) ions, the best-fit for chi(M)T versus T using a 1D alternating chain model leads to the parameters J(1) = 7.9(3) cm(-)(1), J(2) = 1.03(2) cm(-)(1), and g = 2.196(3). Complex 4 exhibits ferrimagnetic behavior caused by the noncompensation of the local interacting spins (S(Mn) = 5/2 and S(Fe) = 1/2) which interact antiferromagnetically through bridging cyano groups.     

Systematic investigation of the hydrothermal syntheses of Pr(III)-PDA (PDA = pyridine-2,6-dicarboxylate anion) metal-organic frameworks

A series of novel two-dimensional (2D) and three-dimensional (3D) praseodymium coordination polymers, namely, {[Pr3(PDA)4(HPDA)(H2O)8] x 8H2O}n (2), {[Pr2(PDA)3(H2O)3] x H2O}n (3), {[Pr(PDA)(H2O)4] x ClO4}n (4), and { [Pr2(PDA)2(H2O)5SO4] x 2H2O}n (5) (PDA = pyridine-2,6-dicarboxylic anion), was designed and synthesized under hydrothermal conditions. Complexes 1-3 (chainlike polymer, {[Pr(PDA)(HPDA)(H2O)2] x 4H2O}n (1) was also obtained independently by us, although it has been reported recently by Ghosh et al.) were fabricated successfully by simply tuning the Pr/PDA ratio and exhibited various and intriguing topological structures from a 1D chain to a 3D network. While the synthetic strategy of 5 was triggered and further performed only after 1 was structurally characterized. The complexes were characterized by X-ray single-crystal determination, spectroscopic, and variable-temperature magnetic susceptibility analyses. In complex 2 an unusual nanosized square motif as a building block constructed by eight Pr ions was further assembled into a highly ordered 2D grid compound. In complex 3 the decanuclear Pr metal-based structure as a repeat unit interpenetrated to form a novel 3D polymer. Complex 4 was a 3D network polymer fabricated through a hexanuclear Pr ring as a building block, and ClO4- anions as guests were trapped in the cavity. In complex 5 six Pr atoms, two SO4(2-) anions, and carboxylic oxygen bridges constructed an intriguing rectangle structure as a repeat unit in the grid to form a 2D coordination polymer in which the unique bi-bidentate coordination mode of SO4(2-) anion was observed.     

The first coordination polymers and hydrogen bonded networks containing octahedral Nb6 clusters and alkaline earth metal complexes

Three novel coordination polymers built of octahedral niobium cyanochloride clusters [Nb6Cl12(CN)6] and alkaline earth metal complexes have been prepared by reaction of aqueous solutions of (Me4N)4Nb6Cl18 and KCN with solutions of alkaline earth metal salts and 1,10-phenanthroline (phen) (1:2 molar ratio) in H2O/EtOH. The structures of [Ca(phen)2(H2O)3]2[Nb6Cl12(CN)6] x (phen)(EtOH)1.6 (1), [Ca(phen)2(H2O)2]2[Nb6Cl12(CN)6] x (phen)2 x 4H2O (2), and [Ba(phen)2(H2O)]2[Nb6Cl12(CN)6] (3) were determined by single-crystal X-ray diffraction. The three compounds were found to crystallize in the monoclinic system (space group Pn) with a = 11.5499(6) A, b = 17.5305(8) A, c = 21.784(1) A, beta = 100.877(1) degrees for 1; triclinic system (P1) with a = 12.609(4) A, b = 13.262(4) A, c = 16.645(5) A, alpha = 69.933(6) degrees, beta = 68.607(6) degrees, gamma = 63.522(5) degrees for 2; and a = 16.057(1) A, b = 16.063(1) A, c = 16.061(1) A, alpha = 86.830(1) degrees, beta = 64.380(1) degrees, gamma = 67.803(1) degrees for 3. Compounds 1 and 2 are built of cluster anions [Nb6Cl12(CN)6]4- trans-coordinated by two Ca2+ complexes via CN ligands to form neutral macromolecular units [Ca(phen)2(H2O)3]2[Nb6Cl12(CN)6] in 1 and [Ca(phen)2(H2O)2]2[Nb6Cl12(CN)6] in 2. Water of coordination and cyanide ligands form hydrogen bonded 3D and 2D frameworks for 1 and 2, respectively. The structure of 3 consists of [Nb6Cl12(CN)6]4- cluster anions and [Ba(phen)2(H2O)]2+ complexes linked through bridging cyanide ligands to form a neutral three-dimensional framework in which each barium complex is bound to three neighboring Nb6 clusters and each Nb6 cluster is linked to six Ba complexes.     

有机锡四唑乙酸酯的合成、结构与抗真菌活性

通过四唑乙酸与二丁基氧化锡(或二乙基氧化锡)反应,合成了4个新的有机锡四唑乙酸酯。它们的结构通过红外,核磁以及X-射线单晶衍射分析得到确证。生物活性测试表明,它们对小麦赤霉病菌以及禾谷丝核菌等具有一定的抑制活性。     

Template synthesis of lanthanide (Pr, Nd, Gd) coordination polymers with 2-hydroxynicotinic acid exhibiting ferro-/antiferromagnetic interaction

Lanthanide coordination polymers were synthesized from Pr(III), Nd(III), and Gd(III) salts; 2-hydroxynicotinic acid (Hnica); and MnSO 4.H 2O under hydrothermal conditions. In the absence of (CH 3) 3CCOONa, 1D polymers with an infinite Ln(III)-O-Ln(III) chain structure, [Pr(Hnica)(H 2O) 2SO 4] n ( 1), [Nd(Hnica)(H 2O) 2SO 4] n ( 2), and [Gd(Hnica)(H 2O) 2SO 4] n ( 3), were generated. When (CH 3) 3CCOONa was added to the synthetic systems, 2D coordination polymers {[Pr 3(Hnica) 6(H 2O) 9].3H 2O.SO 4.NO 3} n ( 4), {[Nd 3(Hnica) 6(H 2O) 9].3H 2O.SO 4.NO 3} n ( 5), and {[Gd(Hnica) 2(H 2O) 2]ClO 4.H 2O} n ( 6) were obtained. Complexes 4 and 5 both exhibit Kagome lattice structure, while 6 displays a rhombic grid structure. All complexes were characterized by elemental analysis, IR spectra, UV-vis spectra, and X-ray single-crystal diffraction. The variable-temperature magnetic susceptibility studies reveal ferromagnetic interactions between gadolinium(III) ions in 3 and 6 and antiferromagnetic interactions in 1, 2, 4, and 5.     

Lanthanide-3d cyanometalate chains Ln(III)-M(III) (Ln=Pr, Nd, Sm, Eu, Gd, Tb; M=Fe) with the tridentate ligand 2,4,6-tri(2-pyridyl)-1,3,5-triazine (tptz): evidence of ferromagnetic interactions for the Sm(III)-M(III) compounds (M=Fe, Cr)

A series of cyanide-bridged chain mixed Fe(III)/Ln(III) (Ln=Pr, Nd, Sm, Eu, Gd, Tb) complexes with the tridentate ligand 2,4,6-tri(2-pyridyl)-1,3,5-triazine (tptz) used as a capping group has been prepared. Reactions of tptz and LnCl3 with K3Fe(CN)6 yield a family of air-stable 1-D compounds {[Pr(tptz)(H2O)4Fe(CN)6].8H2O}infinity, {[Nd(tptz)(H2O)4Fe(CN)6].8H2O}infinity, {[Sm(tptz)(H2O)4Fe(CN)6].8H2O}, {[Eu(tptz)(H2O)4Fe(CN)6].6H2O}infinity, {[Gd(tptz)(H2O)4Fe(CN)6].6H2O}infinity, and {[Tb(tptz)(H2O)4Fe(CN)6].8H2O}infinity. Temperature dependent magnetic susceptibility studies of reveal that in , the Sm(III) and Fe(III) ions are ferromagnetically coupled with 3-D ordering occurring below 3.5 K. The appearance of the frequency dependent out-of-phase signal is explained in terms of an ordering with a spin glass-like behavior. To compare the magnetic behavior of with related compounds, {[Sm(tptz)(H2O)4Co(CN)6].8H2O}infinity and {[La(tptz)(DMF)(H2O)3Fe(CN)6].5H2O}infinity, {[Sm(tmphen)(DMF)3(H2O)Fe(CN)6].2H2O}infinity, {[Sm(tmphen)2(H2O)2Fe(CN)6].MeOH.13H2O}infinity and {[Sm(tmphen)2(H2O)2Cr(CN)6].MeOH.9H2O}infinity with 3,4,7,8-tetramethyl-1,10-phenanthroline (tmphen) were also prepared.