Synthesis, structure and magnetic properties of two μ-oxo and thiocyanato-bridged manganese(II)-mercury(II) coordination polymers

Mixed-metal thiocyanate complexes [MnHg(SCN)₄(NOP)] (1) and [MnHg(SCN)₄(DMSO)] (2) (NOP = 3-methyl-4-nitropyridine-N-oxide, DMSO = dimethylsulfoxide) have been synthesized and structurally characterized by single crystal X-ray analysis. Complex 1 and 2 both contain a [Mn₂(μ₂-O)₂] lozenge, which is bridged to Hg(II) ions by end-to-end thiocyanate groups to form a 2-D and 3-D polymeric network, respectively. Magnetic studies indicate that both complexes are anti-ferromagnets, with 1 showing anti-ferrimagnetic ordering below 8.0 K.     

Substitution of trans ligands in μ-oxo-bis(μ-acetato)diruthenium(III) complexes: Synthesis and kinetic studies

[Ru₂O(L)₆(acetate)₂](PF₆)₂ {L = pyridine 1; 4-picoline 2} undergo aquation in acetone-water (60:40 v/v) mixed solvent to form diaquo complexes in solution as shown by proton NMR studies. Ligands trans to the μ-oxo group are substituted. These diaquo complexes react with substituted pyridines and imidazoles to form respective disubstituted complexes. Rate constants for aquation and complexation under pseudo first order conditions of ligand are reported. Rate constants increase with increase in the basicity of incoming ligand. Disubstituted complexes proposed to be formed in solution have been isolated and characterized by elemental analyses, visible spectra, proton NMR. Single crystal X-ray structures of 4-picoline and 4-methylimidazole disubstituted complexes are reported. All the isolated complexes exhibit a strong peak between 570 and 585 nm in their visible absorption spectra. λ_max varies linearly with ∑pk_a of terminal ligands. In disubstituted complexes of 1 with 2-methyl and 4-methyl imidazole deprotonation of N(1)H of methylimidazoles takes place in solution.     

Synthesis and structure of the complex tetra-μ-prolinatodirhodium(II)

The dinuclear Rh^IIRh^II complex with proline [Rh₂(pro₄][NEt₄]₂ was synthesized and its structure studied by means of spectroscopic (IR, EPR and ESCA) and magnetochemical methods. It was shown that two proline molecules serve as bridging ligands, while the other two are only axially coordinated through their N atoms.     

Synthesis, structure and magnetic property of μ-phenoxo-μ-acetato-bis(η-acetato)dicobalt(II, II) complexes

Dinuclear cobalt(II) complexes Co₂(bpmp)(OAc)₃ (1) and Co₂(bpcp)(OAc)₃ (2) have been synthesized by using acyclic ligands 2,6-bis((4-(pyridin-2-yl)pyrimidin-2-ylthio)methyl)-4-methylphenol [H(bpmp)] and 2,6-bis((4-(pyridin-2-yl)pyrimidin-2-ylthio)methyl)-4-chlorophenol [H(bpcp)] with versatile coordination sites. X-ray analysis uncovered that complex 1 · 3H₂O contains a μ-phenoxo-μ-acetato-bis(η²-acetato) dicobalt(II, II) core. Magnetic susceptibility was measured for 1 over the temperature range 1.8-300 K, and the best theoretical fitting parameters were g = 2.12(6), J = −3.63(9) cm⁻¹ and D = −12(4) cm⁻¹.     

Synthesis,structure and properties of syn-bis(μ-N-methylpiperidine-4-thiolate tricarbonyl iron)

The reaction of Fe₃(CO)₁₂ with N-methyl-4- mercaptopiperidine gives the title compound. Crystals are monoclinic, space group P2₁/c with a = 12.922(2), b = 14.784(5), c = 13.607(2) Å, β = 112.41(1)°. With Z = 4 the calculated density is 1.49 g cm⁻³. Solution of the structure by direct methods led to a final weighted R factor of 0.029 for 2270 independent reflections. The FeFe bond length is 2.534(1) Å and the S···S distance of 2.940(1) suggests bonding interactions. By heating upon reflux in toluene during 10 h, the IR spectrum of the chromatographed solution indicates the syn isomer formation. The reaction with CH₃I and HClO₄ produces the methylation and protonation, respectively, of the nitrogen atoms of the piporidine rings giving rise to the formation of the [Fe(μ-(CH₃)₂NC₅H₉S)(CO)₃]₂I₂·2H₂O and [Fe(μ-HCH₃NC₅H₉S)(CO)₃]₂·H₂O·CH₃OH compounds.     

Speciation and structure of ferriprotoporphyrin IX in aqueous solution: spectroscopic and diffusion measurements demonstrate dimerization,but not μ-oxo dimer formation

Changes in epsilon (393) (the Soret band) of aqueous ferriprotoporphyrin IX [Fe(III)PPIX] with concentration indicate that it dimerizes, but does not form higher aggregates. Diffusion measurements support this observation. The diffusion coefficient of aqueous Fe(III)PPIX is half that of the hydrated monomeric dicyano complex. Much of the apparent instability of aqueous Fe(III)PPIX solutions could be attributed to adsorption onto glass and plastic surfaces. However, epsilon (347) was found to be independent of the aggregation state of the porphyrin and was used to correct for the effects of adsorption. The UV-vis spectrum of the aqueous dimer is not consistent with that expected for a mu-oxo dimer and the (1)H NMR spectrum is characteristic of five-coordinate, high-spin Fe(III)PPIX. Magnetic susceptibility measurements using the Evans method showed that there is no antiferromagnetic coupling in the dimer. By contrast, when the mu-oxo dimer is induced in 10% aqueous pyridine, characteristic UV-vis and (1)H NMR spectra of this species are observed and the magnetic moment is consistent with strong antiferromagnetic coupling. We propose a model in which the spontaneously formed aqueous Fe(III)PPIX dimer involves noncovalent interaction of the unligated faces of two five-coordinate H(2)O/HO-Fe(III)PPIX molecules, with the axial H(2)O/OH(-) ligands directed outwards. This arrangement is consistent with the crystal structures of related five-coordinate iron(III) porphyrins and accounts for the observed pH dependence of the dimerization constant and the spectra of the monomer and dimer. Structures for the aqueous dimer are proposed on the basis of molecular dynamics/simulated annealing calculations using a force field previously developed for modeling metalloporphyrins.     

Dicyanamido-metal(II) complexes. Part 4: Synthesis, structure and magnetic characterization of polynuclear Cu(II) and Ni(II) complexes bridged by μ-1,5-dicyanamide

The one pot aqueous reaction of M(ClO₄)₂ (M = Cu²⁺ or Ni²⁺) with N-methylbis[2-(2-pyridylethyl)]amine (MeDEPA) and N,N′-dimethyl-N,N′-bis(2-pyridylmethyl)ethylenediamine (bpmen) and 1,4,7,10-tetraazacyclododecane (cyclen) in presence of sodium dicyanamide (Nadca) yielded dicyanamido-bridged polynuclear complex {[Cu(MeDEPA)(μ-1,5-dca)]ClO₄}_n (1), and two dinuclear complexes [Cu₂(bpmen)₂(μ-1,5-dca)]₂(ClO₄)₅dca (2) and [Ni(cyclen)(μ-1,5-dca)]₂(ClO₄)₂ (3). These complexes were characterized by IR and UV-Vis spectroscopy. Room temperature single-crystal X-ray studies have confirmed that the Cu(II) centers in 1 and 2 adopt geometries that are more close to trigonal bipyramidal (TBP) in 1 and close to square pyramidal (SP) in 2, whereas in 3, the Ni(II) centers are located in octahedral environment with doubly bridged μ-1,5-dca bonding mode. The intermolecular M···M distances in these complexes are in the range of 7.3-8.6 Å. Variable temperature magnetic susceptibility studies have confirmed that the dca-bridges mediate very weak antiferromagnetic interaction between the M(II) centers with J values of −0.35, −0.18 and −0.43 cm⁻¹ for 1, 2 and 3, respectively. The results are compared and discussed in the light of other related bridged μ-1,5-dca Cu(II) and Ni(II) complexes.     

Synthesis, structure and photocatalytic activity of a remarkably bent, cofacial ethene-linked diiron (III) μ-oxobisporphyrin

Synthesis and characterization of cis and trans 1,2-bis[Chloroiron(III) 5-(2,3,7,8,12,13,17,18-octaethylporphyrinyl)]ethenes are described. Upon treatment with 5% NaOH, cis form of the molecule immediately converts to remarkably bent diiron (III)-μ-oxo bisporphyrin which transforms to cis bisChloroFe(III)porphyrin again by the addition of 5% HCl. This facile transformation is reversible with sharp change in color in which the bisporphyrin platform ‘open’ and ‘close’ its binding pockets with very high vertical flexibility in a single molecular framework. Single crystal X-ray structural characterization reveals cis diiron(III)-μ-oxo bisporphyrin in which Fe-O-Fe unit is remarkable bent with 150.9(2)° angle. Two porphyrin rings in the molecule are not slipped but face-to-face in a fully eclipsed geometry and are placed so close that some of the carbon atoms from each of the macrocycles are driven to be essentially less than the van der Waals contacts (<3.4 Å). Two rings in the oxo-bridged dimer also make the interplanar angle of 27.7° instead of expected angle of 60° due to the bridging alkenic bond. EPR, ¹H NMR and Mössbauer spectral data are indicative of strong anti-ferromagnetic coupling between two high-spin iron(III) centers via bridging oxo group. The complex catalyzes the rapid photoinduced oxygenation of phosphites under mild condition using aerial O₂. Electrochemical data reveals that the diiron(III)-μ-oxo bisporphyrin in dichloromethane undergoes four reversible/quasi-reversible one electron oxidation and one electron reductions. The presence of two porphyrin macrocycles within a short distance in the μ-oxo species makes the porphyrin core highly nonplanar and more electron rich that might responsible for easier oxidations compared to [Fe(OEP)]₂O.     

Synthesis and crystal structures of five-coordinated β-pyrrole tetra(phenyl/cyano) substituted zinc(II)-tetraphenylporphyrins

Crystal structures of a series of 2,3,5,10,12,13,15,20-octaphenylporphinato zinc(II) complexes with varying axial ligands have been examined to elucidate the role of fifth ligand on the stereochemistry of the porphyrin macrocycle. The nonplanarity of the macrocycle varies in the order, ZnOPP < ZnOPP(pyridine) < ZnOPP(H₂O). The electron deficient porphyrin complex of five-coordinated Zn(II), ZnTPP(CN)₄(CH₃OH) showed enhanced nonplanarity of the macrocycle and it is less than that of ZnOPP(H₂O)·TCE complex. Normal coordinate structure decomposition analysis of the out-of-plane displacement of the porphyrin ring in these structures revealed negligible wave distortion in planar four-coordinated ZnOPP and saddle, ruffled and domed distortions in other five-coordinated Zn(II)-porphyrins. The pronounced distortion of the macrocyclic ring in these structures is possibly due to the axial ligand, solvate and/or intermolecular interactions compared to steric crowding of the peripheral substituents.     

Synthesis, structure and properties of unsymmetrical μ-alkoxo-dicopper(II) complexes: biological relevance to phosphodiester and DNA cleavage and cytotoxic activity

The unsymmetric dinucleating ligand N-(2-hydroxybenzyl)-N,N′,N′-tris(2-pyridylmethyl)-1,3-diaminopropan-2-ol (L = H₂btppnol) and the corresponding copper(II) complex [Cu₂(Hbtppnol)(μ-CH₃COO)](ClO₄)₂ (1) have been recently reported in part in a short communication [Inorg. Chem. Commum. 8 (1999) 334]. In this study, we investigated the ability of complex 1 to promote the hydrolysis of P-O phosphate diester bonds in bis(2,4-dinitrophenyl) phosphate (2,4-BDNPP) and the cleavage of genomic and plasmid DNA molecules. Reaction of 1 with excess of the diester 2,4-BDNPP, at pH 7.0, results in the formation of the monoester phosphate coordinated [Cu₂(Hbtppnol)(μ-((NO₂)₂-C₆H₃)PO₄)]ClO₄ (3) complex, which was also characterized by X-ray crystallography. In addition, the stable μ-phosphate complex [Cu₂(Hbtppnol)(μ-(NO₂-C₆H₄)PO₄)](ClO₄) (2) obtained from the reaction of 4-nitrophenyl phosphate with complex 1 was also characterized by X-ray crystallography, indicating that 1 is unable to cleave monoester-phosphate bonds. The kinetics for the promotion of bis(2,4-dinitrophenyl) phosphate (2,4-BDNPP) hydrolysis by complex 1 was investigated as a function of pH, catalyst concentration and substrate concentration. On the basis of kinetic and potentiometric studies, the deuterium isotope effect (k^H/k^D ∼ 1) and the X-ray structure of the monoester phosphate coordinated [Cu₂(Hbtppnol)(μ-((NO₂)₂-C₆H₃)PO₄)]ClO₄ (3) complex as the product of the reaction, we demonstrated that the aquo/hydroxo complex is the active species and the reaction occurs through the formation of a ternary complex in which one Cu^II binds the substrate and the second copper center has a terminal bound hydroxide to attack the phosphorus atom, at physiological pH. A rate enhancement factor of ∼100 was calculated relative to that measured for the uncatalyzed reaction under identical conditions. Complex 1 effectively promotes the cleavage of double-stranded genomic and plasmid DNA, at physiological pH, probably through a hydrolytic mechanism in agreement with that proposed for the reaction of 1 with 2,4-BDNPP. Finally, cytotoxic activity of 1 in a human small cell lung carcinoma cell line (GLC4) and its cisplatin resistant subline (GLC4/CDDP) was studied and the IC₅₀ values were determined.     

Dinuclear compounds with a μ-cyano ligand. Part XIII. Synthesis,characterization and solid state kinetics of the formation of (μ-cyano)(tricyanometal(II))pentaamminerhodium(III) and iridium(III) (metal(II) = nickel,palladium, platinum). Influence of the PtPt interactions

Six new dinuclear complexes of (μ-cyano)(tricyanometal(II))pentaamminerhodium(III) or iridium(III), metal(II) being nickel, palladium and platinum, have been obtained by solid state reaction of the tetracyanometallate(II) of aquopentaamminerhodium(III) and iridium(III), respectively. All these complexes have been characterized by chemical analysis, electronic and IR spectra and TG measurements. The kinetics of the solid-state deaquation-anation has been studied by thermogravimetric measurements under both nonisothermal and isothermal conditions. The activation energies so obtained are 105.3 and 107.7 kJ/mol for the Ni compounds; 115.0 and 118.1 kJ/mol for the Pd compounds and 90.2 and 92.2 kJ/ mol for the Pt compounds. These low values of activation energy can indicate an S_N1 dissociative mechanism with an activated complex of square- based-pyramidal geometry. The marked difference in the kinetic parameters between the Ni, Pd compounds and Pt compounds may be explained in terms of Pt-Pt association in the crystal lattice, which causes distortion and allows the water molecules to escape easily from the crystal structure. These Pt-Pt interactions are shown in the electronic spectrum by the appearance of a very strong band at about 355 nm in the solid state and at about 330 nm and 300 nm in solution.     

Synthesis,crystal structure,and DNA-binding properties of a new copper (II) complex containing mixed-ligands of 2,2′-bipyridine and p-methylbenzoate

A novel copper complex of [Cu(bpy)(pba)₂ · H₂O] · 0.5H₂O (bpy = 2,2′-bipyridine, pba = p-methylbenzoate) was synthesized. The interaction of the complex to native fish sperm DNA was investigated through electrochemistry, electronic absorption spectroscopy and viscosity experiments. In the X-ray crystallography structure, the copper (II) ion is coordinated by two oxygen atoms of two p-methylbenzoate groups, two nitrogen atoms of 2,2′-bipyridine and one water molecule. The observed changes in the physicochemical features of the copper (II) complex on binding to DNA suggested that the complex bind to DNA with intercalation mode via 2,2′-bipyridine ring into DNA base pairs. Electrochemical studies revealed that the complex prefer to bind to DNA in Cu(I) form rather than Cu(II) oxidation state form. Additionally, the nuclease activity of the title complex was assessed by gel electrophoresis assay and the results shown that the copper complex can cleave pBR322 DNA effectively in the presence of ascorbic acid.     

A two-dimensional copper(II) polymer with bridging μ-trans-oxamidate and μ2-picrate ligands: Synthesis, crystal structure and DNA binding studies

A two-dimensional copper(II) polymer with formula of [Cu₂(dmapox)(pic)₂]_n · nCH₃OH, where dmapox is the dianion of N,N′-bis[3-(dimethylamino)propyl]oxamide and pic is picrate, was synthesized and characterized by elemental analysis, conductivity measurement, IR and electronic spectra studies. The crystal structure of the complex has been determined by single-crystal X-ray diffraction. It crystallizes in monoclinic, space group P2₁/c with crystallographic data: a = 14.076(7) Å, b = 13.896(7) Å, c = 9.278(5) Å, β = 106.909(6)° and Z = 2. The structure consists of uncoordinated methanol molecules and two-dimensional copper(II) polymeric coordination network constructed by the bis-tridentate trans-dmapox and tridentate picrate ligands. The environment around the copper(II) atom can be described as a distorted octahedron and the Cu?Cu separations through μ-trans-oxamidate and μ₂-picrate bridges are 5.227 Å and 8.359 Å, respectively. The copper(II) complex presents as a polymer in solid state, whereas in solution it presents as discrete neutral binuclear copper(II) species [Cu₂(dmapox)(pic)₂] due to the weak interactions between the copper(II) atoms and the para-nitro oxygens of the adjacent picrate ligands. The fluorescence titration and the ethidium bromide (EB) fluorescence displacement experiments reveal that the binding mode between the binuclear copper(II) complex [Cu₂(dmapox)(pic)₂] and Herring Sperm DNA might be intercalation.     

A new hydroxo-bridged thorium(IV) dimer: Preparation and structure of di-μ-hydroxo-bis[aquanitrato(2,6-diacetylpyridinedisemicarbazone)thorium(IV)] nitrate tetrahydrate

The pentadentate ligand 2,6-diacetylpyridinedisemicarbazone, DAPSC, reacts with Th(NO₃)₄ in ethanolwater mixture and a di-μ-hydroxo Th(IV) dimer is formed. The compound [Th₂(OH)₂(DAPSC)₂(NO₃)₂(H₂O)₂](NO₃)₄·4H₂O (I) is monoclinic, space group P2₁/n with a = 10.705(1), b = 19.008(2), c = 11.782(1) Å, β = 107.82(2)°, V = 2282(1) ų and Z = 2. Detailed X-ray structural analysis showed that each thorium atom in the complex is coordinated to one pentadentate DAPSC ligand, which is subjected to a considerable distortion, one bidentate nitrate group, one water ligand and two bridging hydroxo groups. The coordination number is ten and the best presentation of the polyhedron is that of a distorted bicapped square antiprism. The ThTh separation is 4.0181(6) Å and the average ThO(H) bridge is 2.366 Å. The structure was refined using 3185 reflections to an R value of 5.0%.     

Synthesis and structure of μ-3,3′-[ 1,2-ethanediyl-bis(nitrilomethylidyne)-bis(2-hydroxybenzoato)] aquadicopper(II) hydrate

The complex μ-3,3′-[1,2-ethanediyl-bis(nitrilome- thylidyne)-bis(2-hydroxybenzoato)] aquadicopper(II) hydrate, C₁₈H₁₆N₂O₈Cu₂, was isolated from an attempted preparation of a copper lanthanum binuclear complex. The dark purple crystals are monoclinic, space group P2₁/n, with 4 molecules per unit cell; dimensions a = 13.961(5), b = tl.787(3), c = 11.622(3) Å and β = 113.09(2)°. The final R was 0.046 for the 2062 reflections used in the analysis. The Cu atom in the N₂O₂ cavity is five coordinate with CuN distances of 1.879 and 1.880 Å and CuO distances of 1.898 and 1.900 Å. A water molecule at 2.557 Å completes the square pyramidal arrangement. The second Cu in the O₄ cavity is square planar, with CuO distances to the bridging oxygens of 1.914 and 1.909 Å and to the carboxy oxygens of 1.871 and 1.882 Å. A survey of copper complexes in a square planar N₂O₂ arrangement has led to the equation δCu from the N₂O₂ plane = 0.822 – 0.275 (CuO axial distance) with a correlation coefficient of 0.98 for the 12 structures in which the Cu atom is bonded to a fifth oxygen atom. A model for the transition from square planar to square pyramidal geometry is proposed.