Hexamine copper(II) coordination polymers: synthesis, structure and magnetic properties

Four new one-dimensional (1D) polymeric complexes, {[Cu4(L1)2(µ-Br)2(µ4-CO3)]Br(ClO4)3·3H2O}n (1), {[Cu2L2(µ-Cl)Cl2] (ClO4)2·H2O}n (2), {[Cu2L3(µ-Cl)2](ClO4)2}n (3), and {[Cu2L4(µ-Cl)2](ClO4)2}n (4), have been synthesized and characterized, where L1 = N,N,N′,N′-tetrakis(3′-aminopropyl)-1,3-propylenediamine, L2 = N,N,N′,N′-tetrakis(2′-aminoethyl)-1,3-propylenediamine, L3 = N,N,N′,N′-tetrakis(2′-aminoethyl)-1,4-butylenediamine, L4 = N,N,N′,N′-tetrakis(2′-aminoethyl)-1, 6-hexylenediamine. X-Ray structure analysis revealed that the polymeric complexes, created by the bridging groups which are exhibited in the formula, present different 1D coordination motifs: double-stranded chains with voids of 43.5 A2 for 1, sigmoid chains for 2, zigzag chains for 3 and 4 with different coordination polyhedra. Various hydrogen bonding interactions such as N–H⋯Cl, N–H⋯O, C–H⋯Cl, N–H⋯Br and O–H⋯Br join the polymeric chains to generate two-dimensional networks with bigger voids. Magnetic susceptibility data were fitted according to the molecular structures using Hamiltonians: H = −2J1(S2S3 + S1S4) − 2J2(S2S1) − 2J3(S1S3 + S2S4) − 2J4(S3S4), which corresponds to a rectangular array of spins for 1, and H = −2JS1S2 corresponds to a dinuclear array of spins for 2, 3 and 4. It was found that the coupling constants of 1 are −60, −113, −54 and −11 cm−1, and those of 2, 3, and 4 are −2.46, −1.56 and −0.15 cm−1, respectively.

[1]  Xiang-gao Meng,et al.  A thiophenopolyamine Cu(II) complex fixed by atmospheric carbon dioxide: synthesis, structure and properties , 2008 .

[2]  Zhan-Ting Li,et al.  The N—H···X (X = Cl, Br, and I) Hydrogen-Bonding Pattern in Aromatic Amides: A Crystallographic and 1H NMR Study , 2008 .

[3]  C. Ruiz-Pérez,et al.  Synthesis, crystal structures and magnetic properties of tricyanomethanide-containing copper(II) complexes. , 2008, Dalton transactions.

[4]  Changwen Hu,et al.  Noncovalently Connected Framework Assembled from Unusual Octamolybdate-Based Inorganic Chain and Organic Cation , 2008 .

[5]  Bin Zhao,et al.  PH-Dependent Cu(II) Coordination Polymers with Tetrazole-1-acetic Acid : Synthesis, Crystal Structures, EPR and Magnetic Properties , 2008 .

[6]  J. Sanchiz,et al.  Self-assembled copper(II) coordination polymers derived from aminopolyalcohols and benzenepolycarboxylates: structural and magnetic properties. , 2008, Inorganic Chemistry.

[7]  Sanping Chen,et al.  Ligand-directed copper(І) azide coordination polymers bridged by N-donor ligands with different lengths: azide exhibits a rare μ−1, 1, 3, 3 bridging mode , 2007 .

[8]  M. Formica,et al.  A new branched phenanthroline derivative ligand: synthesis, solution chemistry, and crystal structures of copper(II) and zinc(II) complexes. , 2007, Inorganic chemistry.

[9]  E. Vázquez-López,et al.  Supramolecular architectures and magnetic behavior of coordination polymers from copper(II) carboxylates and 1,2 -bis (4-pyridyl )ethane as a flexible bridging ligand , 2007 .

[10]  S. Mitra,et al.  Synthesis and magneto-structural correlation of a new maleato bridged copper(II) coordination polymer , 2007 .

[11]  M. Formica,et al.  Modulating the M-M distance in dinuclear complexes. New ligand with a 2,2'-Biphenol fragment as key unit: synthesis, coordination behavior, and crystal structures of Cu(II) and Zn(II) dinuclear complexes. , 2007, Inorganic chemistry.

[12]  Yi-zhi Li,et al.  [N,N,N′-Tris(3-amino­prop­yl)-N′-(3-ammonio­prop­yl)ethane-1,2-diamine]copper(II) tris­(perchlorate) , 2006 .

[13]  S. Youngme,et al.  Crystal structures and magnetic properties of two new phosphate-metal complexes: [Cu2(bpy)2(μ,η2-HPO4)(μ, η1-H2PO4)(μ,η2-H2PO4)]n and [Cu4(phen)4(μ3,η2-HPO4)2(μ,η2-H2PO4)2(H2PO4)2](H2O)4 , 2006 .

[14]  Zheng-he Peng,et al.  Synthesis, Crystal Structure and Properties of Polyamine Copper(II) Complexes , 2006 .

[15]  S. Youngme,et al.  A new unique tetranuclear Cu(II) compound with double bridging thiocyanate anions: Synthesis, X-ray structure and magnetism of [Cu4(μ1,3-NCS)6(dpyam)4(O2CH)2(H2O)2] (dpyam = di-2-pyridylamine) , 2006 .

[16]  F. Luna-Giles,et al.  Crystal Structure and Magnetic Exchange in the Single Chloride‐Bridged Copper(II) Chain Compound [CuCl2(TzHy)] [TzHy = (4,5‐dihydro‐1,3‐thiazol‐2‐yl)hydrazine] , 2005 .

[17]  M. R. Bermejo,et al.  Unexpected ferromagnetic interaction in a new tetranuclear copper(II) complex: synthesis, crystal structure, magnetic properties, and theoretical studies. , 2005, Inorganic chemistry.

[18]  R. Gupta,et al.  A new (μ3-carbonato)tricopper(II) complex with symmetry related equilateral triangular array of metal centers; structure and magnetism , 2005 .

[19]  S. Youngme,et al.  A novel tetranuclear hydrogenphosphate-bridged Cu(II) cluster. Synthesis, structure, spectroscopy and magnetism of [Cu4(dpyam)4(μ4, η3-HPO4)2(μ-X)2]X2(H2O)6 (X = Cl, Br) , 2005 .

[20]  Song Gao,et al.  Hydrothermal syntheses, structures and magnetic properties of two transition metal coordination polymers with a square grid framework , 2004 .

[21]  S. Kazakov,et al.  Immunobiological activity of coordination compounds of platinum forming complexes with immunoglobulin fragments , 1989, Bulletin of Experimental Biology and Medicine.

[22]  G. Desiraju Crystal engineering. From molecules to materials , 2003 .

[23]  Montserrat Rodríguez,et al.  Solvent controlled nuclearity in Cu(II) complexes linked by the CO32− ligand: synthesis, structure and magnetic properties , 2002 .

[24]  A. Bortoluzzi,et al.  Synthesis, characterization and crystal structure of a new unsymmetric tetranuclear copper-carbonate complex: reversible CO2 fixation , 2001 .

[25]  P. Bernhardt Diverse solid-state and solution structures within a series of hexaamine dicopper(II) complexes. , 2001, Inorganic chemistry.

[26]  Mohamed Eddaoudi,et al.  Highly Porous and Stable Metal−Organic Frameworks: Structure Design and Sorption Properties , 2000 .

[27]  Montserrat Rodríguez,et al.  Synthesis, Structure, and Magnetic Properties of a New Chloro-Bridged Dimer [Cu2(dpt)2Cl2]Cl2 with an Unusual Structure and Ferromagnetic Coupling , 1999 .

[28]  F. Lloret,et al.  Ferromagnetic coupling through a carbonate bridge in the copper (II) chain [Cu(CO3)(4-apy)2] · H2O (4-apy = 4-aminopyridine) , 1999 .

[29]  Hailian Li,et al.  Selective Guest Binding by Tailored Channels in a 3-D Porous Zinc(II)−Benzenetricarboxylate Network , 1997 .

[30]  X. Solans,et al.  Two new tetranuclear µ4-carbonatocopper(II) complexes. Syntheses, crystal structure andmagnetic behaviour of[(µ4-CO3)(µ-Br)2{Cu4(bapa)4}]Br4 and[(µ4-CO3)(µ-Cl)2{Cu4(bapma)4}]Cl4·12H2O [bapa = bis(aminopropyl)amineand bapma = bis(aminopropyl)methylamine] , 1997 .

[31]  P. Kruger,et al.  Intramolecular Ferromagnetism in a Novel Hexanuclear (.mu.-Hydroxo)(.mu.-carbonato)copper(II) Bipyridine Complex. Structure of [Cu6(bpy)10(.mu.-CO3)2(.mu.-OH)2](ClO4)6.cntdot.4H2O and of a Dinuclear .mu.-Carbonato Complex [Cu2(bpy)4(.mu.-CO3)](PF6)2.cntdot.2DMF , 1995 .

[32]  T. Rojo,et al.  Crystal Structure and Spectroscopic and Magnetic Properties of Two Novel Mono(.mu.-halo) Copper(II) Chains with an Unusual Zigzag Arrangement: [Cu(C13H13N3)X]PF6 (X = Cl, Br) , 1995 .

[33]  D. Fairlie,et al.  crystal Structure and Electrospray Ionization Mass Spectrometry, Electron Paramagnetic Resonance, and Magnetic Susceptibility Study of [Cu2(ascidH2)(1,2-.mu.-CO3)(H2O)2].cntdot.2H2O, the Bis(copper(II)) Complex of Ascidiacyclamide (ascidH4), a Cyclic Peptide Isolated from the Ascidian Lissoclinum pa , 1994 .

[34]  T. Tarantelli,et al.  Further neighbor magnetic exchange interaction in a novel pseudolinear tetramer of copper(II) , 1993 .

[35]  D. Craik,et al.  Synthesis, DNA binding interactions and biological activity of bis platinum (II) complexes of N,N,N',N'-tetrakis(2-aminoethyl)diamines. , 1992, Anti-cancer drug design.

[36]  JohnB . Taylor,et al.  Synthesis and characterization of a series of achiral and chiral mono- and bis[(dien)Pt(II)I]I derivatives as potential DNA and RNA structure probes and anticancer drugs , 1992 .

[37]  G. Karpova,et al.  rRNA‐protein neighbourhood in Escherichia coli 70 S ribosomes and 70 S initiation complex Probing by bifunctional Pt(II)‐containing reagent , 1988, FEBS letters.

[38]  Steven J Brown,et al.  Synthetic analogue approach to metallobleomycins. IV: New halo-bridged dimeric and polymeric (infinite zigzag chain) complexes of copper(II) with peptide ligands related to bleomycins , 1988 .

[39]  A. Willis,et al.  Crystal and molecular structure of .mu.-carbonato-di-.mu.-chloro-tetrakis(bis(3-aminopropyl)amine)tetracopper(II) chloride hydrate , 1981 .

[40]  M. Rupich,et al.  Synthesis, physical properties, and structural characterization of .mu.-carbonato-dichlorobis(N,N,N',N'-tetramethyl-1,3-propanediamine)dicopper(II), LCuCl(CO3)ClCuL, a diamagnetic initiator for the oxidative coupling of phenols by dioxygen , 1979 .

[41]  F. Einstein,et al.  A NOVEL MODE OF CARBONATE BINDING. STRUCTURE OF SPIN-PAIRED μ-CARBONATO-BIS(2,4,4,7-TETRAMETHYL-1,5,9-TRIAZACYCLODODEC-1-ENE)DICOPPER(II# ) PERCHLORATE , 1978 .

[42]  P. Healy,et al.  Ferromagnetic interactions in sodium bis(carbonato)cuprate(II) , 1978 .

[43]  Roald Hoffmann,et al.  Orbital interactions in metal dimer complexes , 1975 .

[44]  A. White,et al.  Crystal structures of copper(II) sodium carbonate trihydrate (chalconatronite) , 1974 .

[45]  P. Healy,et al.  Crystal structure and physical properties of anhydrous sodium copper carbonate , 1972 .