硼合多羟基醇希土配合物的合成与性质及其配位作用的研究

本文合成了硼合甘油希土和硼合葡萄糖希土二类共八个配合物。用化学分析、红外光谱、紫外光谱及热谱确定其组成为:RE(BO_2·C_3H_8O_3)_3·nCH_3OH和RE(BO_2·C_6H_(12)O_6)_3·3H_2O(RE=Nd、Gd、Y、Yb)。摩尔电导测定表明这两类化合物均为中性配合物。红外光谱显示出硼与多羟基醇之间以硼氧四面体形式结合。本文还通过电位滴定法讨论了希土与硼合多羟基醇之间的配位作用。     

镧、钕柠檬酸配合物对纤维素酶活性的影响及其机制的探讨

研究了不同稀土浓度的镧、钕柠檬酸配合物溶液对纤维素酶水解不同纤维素底物的活性的影响规律，并对其作用机制进行了分析：用沉淀法分别合成了镧、钕柠檬酸配合物；用EDTA络合滴定法分析了镧、钕在配合物中的含量；用红外光谱法对镧、钕柠檬酸配合物进行了表征；用DNS试剂法测定了不同稀土浓度的镧、钕柠檬酸配合物溶液对纤维素酶水解不同纤维素底物的酶活性。结果表明：柠檬酸中羧基脱去质子后与镧、钕离子配位，在合适浓度时，两个配合物对纤维素酶水解滤纸、羧甲基纤维素钠、纤维二糖的活性均有最大的激活作用，钕配合物的激活效果好于镧配合物。     

以混旋邻氯扁桃酸为模板的分子印迹聚合物的制备及拆分性能研究

以混旋邻氯扁桃酸为模板分子和合成的(S)-(1-萘乙基)-丙烯酰胺为手性功能 单体制备分子印迹聚合物作为色谱固定相，对混旋邻氯扁桃酸有较好的拆分能力， 分离因子α达到1.36。但对模板分子的类似物混旋扁桃酸和对氯扁桃酸没有拆分能 力。用Hyperchem软件模拟了(S)-邻氯扁桃酸与(S)-(1-萘乙基)-丙烯酰胺形成的复 合物的结构模型，其在聚合物母体中留下的具有立体构型和作用力双重识别的S-S 型空穴，对(S)-邻氯扁桃酸有较强的保留作用，从而达到对混旋物拆分的目的。     

稀土与含硫有机配体配合物的研究: I. 二乙氨基荒酸稀土配合 物Et~2NH~2 [RE9S~2CNEt~2)~4]的合成、表征与结构

在干燥氮气氛中,以乙醇为溶剂制备出稀土与二乙氨基荒酸二乙铵形成的十五个配合物,测定了它们的红外及紫外光谱、热谱和电导,确定该类配合物组成为Et~2NH~2[RE9S~2CNEt~2)~4](RE=La-Lu,Y;Pm除外)。镧配合物的X射线结构分析表明,在该配合物中四个二乙氨基荒酸根各通过两个硫原子与镧离子成键,从而形成八配位的十二面体阴离子,并与二乙铵阳离子形成离子缔合型的配合物分子。     

稀土与含硫有机配体配合物的研究: I. 二乙氨基荒酸稀土配合 物Et~2NH~2 [RE9S~2CNEt~2)~4]的合成、表征与结构

在干燥氮气氛中,以乙醇为溶剂制备出稀土与二乙氨基荒酸二乙铵形成的十五个配合物,测定了它们的红外及紫外光谱、热谱和电导,确定该类配合物组成为Et~2NH~2[RE9S~2CNEt~2)~4](RE=La-Lu,Y;Pm除外)。镧配合物的X射线结构分析表明,在该配合物中四个二乙氨基荒酸根各通过两个硫原子与镧离子成键,从而形成八配位的十二面体阴离子,并与二乙铵阳离子形成离子缔合型的配合物分子。     

寡聚酸合锌(Ⅱ)的合成及对烟草病毒病的防治

在水-乙醇介质中,用寡聚酸钾与硫酸锌反应合成的寡聚酸合锌(Ⅱ)配合物,采用正交实验考察了V水∶V乙醇,反应温度,反应时间对螯合反应的影响,最优反应条件为:V水∶乙醇=1∶1;温度60℃;时间5h.通过红外光谱、紫外光谱和差热-热重分析测试手段对配合物进行了表征.红外光谱和紫外光谱均显示,Zn2+与寡聚酸配位.寡聚酸合锌(Ⅱ)配合物中金属配位方式为单齿和双齿配位.热分析表明,配合物稳定性较强.应用寡聚酸合锌(Ⅱ)防治烟草病毒病,试验结果表明寡聚酸合锌(Ⅱ)具有较强的防治烟草病毒病的作用.寡聚酸合锌(Ⅱ)作为新型的抗病毒制剂具有广阔的开发前景.     

稀土与含硫有机配体配合物的研究 I.二乙氨基荒酸稀士配合物Et_2NH_2[RE(S_2CNEt_2)_4]的合成、表征与结构

在干燥氮气氛中,以乙醇为溶剂制备出稀土与二乙氨基荒酸二乙铵形成的十五个配合物,测定了它们的红外及紫外光谱、热谱和电导,确定该类配合物组成为Et_2NH_2ERE(S_2CNEt_2)_4](RE=La-Lu,Y;Pm除外).镧配合物的X射线结构分析表明,在该配合物中四个二乙氨基荒酸根各通过两个硫原子与镧离子成键,从而形成八配位的十二面体阴离子,并与二乙铵阳离子形成离子缔合型的配合物分子.     

硼-铍试剂Ⅲ配合物吸附波及其应用

微量硼的测定,常用比色法,BF_4~ˉ电极法及光谱法。用极谱法测定硼,尚未见到前人的工作报道。有关硼的极谱性质,Kolthoff亦未曾在极谱学中论及。硼在通常条件下不能在滴汞电极上还原,利用硼与某些有机试剂的配合物极谱波间接测定硼,乃是一个重要途径。有的文献曾对一些金属-偶氮邻羟基类配合物的极谱波进行详细论述。木文试验研究了铍试剂Ⅱ、铍试剂Ⅲ等邻位羟基偶氮试剂与硼的配合反应,发现在一定条件下,硼与铍试剂Ⅲ     

2－羰基丙酸（2，4－二硝基苯基）腙镧系配合物的合成及其大鼠精子抑制效应研究

本文合成了１２种镧系配合物Ｌｎ（ＣＰＤ）３·２Ｈ２Ｏ［Ｌｎ＝Ｌａ～Ｙｂ，除Ｐｍ、Ｔｍ；ＨＣＰＤ＝２－羰基丙酸（２，４－二硝基苯基）腙］．对配合物进行了元素分析、差热－热重分析；测定了其红外光谱、紫外光谱、核磁共振谱（１Ｈ和１３Ｃ）、磁化率和摩尔电导．给出了配合物可能的结构，并对镧配合物进行了大鼠精子抑制效应的研究．     

四硫氰合钴(Ⅱ)酸钡的18-冠-6配合物的研究

制备了四硫氰合钴(Ⅱ)酸钡的18—冠—6配合物,确定了它的组成,对它进行了红外光谱、质谱、热分析等多项物现性能的测试,并将测试结果结合已测定的配合物的结构进行了讨论。     

芳香胺及其氮氧化物合希土配合物的研究 V.2, 2''—联喹啉—N, N''—二氧化物合硝酸希土固体配合物的合成及其性质

在无水乙醇和氯仿混合溶剂中使重希土硝酸盐与2,2′—联喹啉—N,N′—二氧化物(BiqO_2)作用,制得了固体配合物Ln(BiqO_2)(NO_3)_3·2H_2O(Ln=Tm,Yb,Lu,Y)。通过元素分析、X光粉末衍射物相分析、差热—热重分析、红外光谱、紫外光谱、溶解性及摩尔电导测定,研究了配合物的组成及其有关性质。     

Synthesis,characterization and biological activity of triaminoxime and its metal complexes

Mn(II), Fe(III), Co(II), Ni(II), Cu(II) and Zn(II) complexes of multifunctional triaminoxime have been synthesized and characterized by elemental analyses, IR, UV–Vis spectra, magnetic moments, ¹H- and ¹³C-NMR spectra for ligand and its Ni(II) complex, mass spectra, molar conductances, thermal analyses (DTA, DTG and TG) and ESR measurements. The IR spectral data show that the ligand is bi-basic or tri-basic tetradentate towards the metals. Molar conductances in DMF indicate that the complexes are non-electrolytes. The ESR spectra of solid copper(II) complexes [(HL)(Cu)₂(Cl)₂] · 2H₂O (2) and [(L)(Cu)₃(OH)₃(H₂O)₆] · 7H₂O (6) show axial symmetry of a d _{x²???y ²} ground state; however, [(HL)(Co)] (4) shows an axial type with d _Z ² ground state and manganese(II) complex [(L)(Mn)₃(OH)₃(H₂O)6] · 4H₂O (10) shows an isotropic type. The biological activity of the ligand and its metal complexes are discussed.     

Synthesis,spectral and antimicrobial studies of rare earth metal complexes with Schiff-base hydrazone containing quinoline moiety

The synthesis and characterization of lanthanide(III) complexes with the Schiff-base hydrazone, o-hydroxyacetophenone-7-chloro-4-quinoline, (HL) are reported. The complexes were characterized by different physicochemical methods: mass spectrometry, ¹H NMR, ¹³C NMR, and IR, UV-visible, molar conductance and magnetic studies. They have the stoichiometry [Ln(L)₂(NO₃)]·nH₂O where Ln = La(III), Pr(III), Nd(II), Sm(III), Eu(III) and n = 1–3. The spectra of the complexes were interpreted by comparison with the spectrum of the free ligand. The Schiff-base ligand and its metal complexes were tested against one stain Gram +ve bacteria (Staphylococcus aureus), Gram ?ve bacteria (Escherichia coli), and Fungi (Candida albicans). The tested compounds exhibited high antimicrobial activities     

三价轻希土—PMBP—路易斯碱三元配合物的合成及其性质的研究

合成了1—苯基—3—甲基—4—苯甲酰基—吡唑啉酮—5(PMBP)和路易斯碱的三价轻希土三元配合物LnA_3·L(A=Pmbp~-;L=C_2H_5OH时,Ln=La、Pr、Sm、对Gd为GdA_3·(C_2H_5OH)_(0·25);L=Phen(邻菲罗啉)时,Ln=Pr-Gd,L=TBPO(三丁基氧化膦)时,Ln=La、Pr—Gd)。测定了它们的摩尔电导值、热谱、红外光谱、可见—紫外光谱、荧光光谱和质子核磁共振谱。观察到热稳定性次序为LnA_3·Phen>LnA_3·TBPO。从同类型配合物系列的热效应值、LnA_3·Phen型配合物的合成难易程度及其紫外最大吸收波长的移动可观察到镧系收缩现象。     

Structural features of the crystalline iodide complexes of some rare-earth elements with carbamide and acetamide

New acetamide and carbamide complexes LnI₃ · 4Ur · 4H₂O (Ln = La, Eu, Dy, Ho, Y; Ur is carbamide) and LnI₃ · 4AA · 4H₂O (Ln = Nd, Eu, Dy, Ho, Y; AA is acetamide) are synthesized. The complexes are characterized by the data of chemical analysis, IR spectroscopy, and X-ray diffraction analysis. The ligands (water, carbamide, and acetamide molecules) are coordinated by the rare-earth element atoms through the oxygen atom, and the coordination polyhedron is a distorted square antiprism. The iodide ions are not coordinated and are located in the external sphere. The structural characteristics of the complexes are compared in the series [Ln(L)₄(H₂O)₄]I₃ (Ln = La, Nd, Eu, Gd, Dy, Ho, Er; L = AA, Ur).     

Cobalt(II) Complexes of 4,6-Dimethylpyrimidine-2(1H)-one

Some cobalt(II) complexes of 4,6-dimethylpyrimidine-2(1H)-one (HL) have been prepared and studied by infrared and electronic spectra and by magneto-chemical and conductometric measurements. The ligand is coordinated through the unprotonated ring-nitrogen atom and in one case also through the carbonylic oxygen atom. The “blue” complexes [CoX₂ · 2HL] (X₂ = Cl₂, ClBr, Br₂, (NCS)₂) and [CoX₂ · 2HL] · 2HL (X = Cl, Br) have a distorted C_2v [CoX₂N₂] coordination; the thiocyanate ion is N-bonded to the metal. The “green” complexes CoX₂ · 2HL (X = Cl(4H₂O), Br) have a square-pyramidal [CoX₂N₂O] coordination. The “pink” CoX₂ · 4HL · nH₂O (X = ClO₄, n = 2; X = BF₄, n = 8; X = F₃Ac, n = 4) and “cream” CoX₂ · 4HL · 6 H₂O (X = I, ClO₄) complexes have an octahedral coordination; only the F₃Ac^? ion is coordinated. The “cyclamen” CoAcL · 2HL · 2 H₂O and Co₃Ac₄L₂ · 2HL · 2H₂O complexes have a polynuclear constitution; the Ac^? ion behaves as bidentate ligand.     

具有生物活性的金属配合物的研究 III: 3-6(二(二甲氨基)-二苯并碘六环稀土二柠檬酸配合物的合成, 性质及抗肿瘤活性

合成了十五种新的3,6-二(二甲氨基)-二苯并碘六环稀土二柠檬酸配合物, 其化学式为: [C17H20N2I]3[RE(C6H5O7)2].xH2O(RE=La-Nd, x=5; Sm-Tb, x=4; Dy-Lu, Y,x=3). 利用X射线粉末衍射、热重-差热, 红外光谱、紫外光谱、摩尔电导等对这些配合物进行了表征. 试验表明, 镧配合物对L7712癌细胞DNA合成的抑制率(97.3%)明显高于其前体(C17H20N2I^+.HCOO^-, 72.5%; Na3[La(C6H5O7)2], -16.5%.     

Synthesis and characterization of rare earth complexes with Phthalaldehyde-lysine Schiff base

Ten new rare earth complexes with Schiff base (HL) derived from phthalaldehyde with two-CHO groups and lysine, which has unsymmetrical α-and ε--NH₂ groups, were synthesized and characterized by elemental analysis, TG-DTA analysis, UV-Vis, IR, and ¹H NMR spectra. They were confirmed to be as LnL₂(NO₃)·4H₂O (Ln=La, Pr, Nd, Sm, Y) and LnL₂(NO₃)·3H₂O (Ln=Gd, Tb, Dy, Er, Yb), respectively. Furthermore, their coordination mechanism, spectral properties and probable molecular structures were also discussed. __________ Translated from Journal of Zhejiang University (Science Edition), 2005, 32 (5) (in Chinese)     

Diacetonalkohol‐Komplexe von Lanthanoid‐Trichloriden. Die Kristallstrukturen von [LnCl3(DAA)2] mit Ln = Sm und Eu

Diacetone Alcohol Complexes of Lanthanide Trichlorides. Crystal Structures of [LnCl₃(DAA)₂] with Ln = Sm and Eu The diacetone alcohol complexes [LnCl₃(DAA)₂] with Ln = samarium ( 1 ) and europium ( 2 ) are obtained from the waterfree metal trichlorides with excess diacetone alcohol (4‐hydroxy‐4‐methyl‐2‐pentanone = DAA) forming colourless ( 1 ) and pale yellow crystals ( 2 ), respectively, which are characterized by crystal structure determinations. The europium compound 2 is additionally described by its vibrational spectra (IR, Raman). 1 and 2 crystallize isotypically with one another. The metal atoms of the molecular complex units are unusually coordinated in a distorted pentagonal‐bipyramdial fashion by the three chlorine atoms and by the two alcoholic oxygen atoms of the DAA molecules in the equatorial plane. The apical positions are occupied by the carbonyl oxygen atoms of the chelating DAA molecules. The complex units [LnCl₃(DAA)₂] are associated along [100] by bifurcated —OH···Cl···HO— bridges to form chains. 1 : Space group P2₁, Z = 2, lattice dimensions at —80 °C: : a = 710.2(1), b = 1617.6(2), c = 827.3(1) pm; β = 106.36(1)°; R₁ = 0.026. 2 : Space group P2₁, Z = 2, lattice dimensions at —80 °C: a = 709.7(1), b = 1614.5(2), c = 825.7(1) pm; β = 106.40(1)°; R₁ = 0.0303.     

Mono- and Bi-Nuclear Metal Complexes of Schiff-Base Hydrazone (ONN) Derived from o-Hydroxyacetophenone and 2-Amino-4-Hydrazino-6-Methyl Pyrimidine

A tridentate ONN donor Schiff-base hydrazone ligand, H₂L, was synthesized by the condensation of 2-amino-4-hydrazino-6-methyl pyrimidine with o-hydroxyacetophenone. The structure of the ligand was elucidated by IR and ¹H NMR spectra which indicated the presence of three different coordinating groups, the oxygen atom of the phenolic OH group, the nitrogen atom of the azomethine, C=N, group and one of the nitrogen atoms of the heterocyclic ring. The ligand behaves either as a tridentate (N₂O sites) neutral, mono- or di-basic ligand or as a bidentate (NO sites) monobasic ligand depending on the pH of the reaction medium and the metal ion. The mass spectrum of the ligand showed the presence of the molecular ion peak. Different types of metal complexes, mononuclear such as [(HL)M(OAc)]·xH₂O (M = Cu or Zn), [(HL)M(OAc)H₂O]·xH₂O (M = Ni or UO₂), [(HL)Co(OH₂)Cl]·2H₂O, [(H₂L)FeCl₃]·3½H₂O, [(L)FeCl(H₂O)₂]· 2¼H₂O, [(HL)L'FeCl(H₂O)]·H₂O (L' = 8-hydroxyquinoline, 8-HQ), [(HL)L'FeCl]Cl·xH₂O (L' = 1,10-phenanthroline, phen, or 2,2'-bipyridyl, bpy) and [(HL)L'Cu]·ClO₄ (L' = phen). Also, binuclear complexes with oxalic acid of the type [(HL)ClFe(ox)FeCl(HL)], [(HL)Cu(ox)Cu(HL)] were obtained. The IR spectra of the binuclear complexes indicated that the oxalate anion acts as a bridging tetradentate ligand. Elemental analyses, IR, electronic and ESR spectra as well as conductivity and magnetic susceptibility measurements were used to elucidate the structures of the newly prepared metal complexes. Square-planar geometry is suggested for the Cu(II) complex, octahedral geometry for the Fe(III), Ni(II) complexes, tetrahedral geometry for the Co(II) and Zn(II) complexes and pentagonal-bipyramidal geometry for the UO₂(VI) complex.