Abstract
The synthesis, crystal structure and magnetic properties of the coordination polymers of formula [EDAP{Li6(H2O)8[(Cu2(μ-mpba)2)2(H2O)2]}]n (1) and [(EDAP)2{K(H2O)4[Cu2(μ-mpba)2(H2O)2]}Cl·2H2O]n (2), in which mpba = N,N′-1,3-phenylenebis(oxamate) and EDAP2+ = 1,1′-ethylenebis(4-aminopyridinium) are described. Both compounds have in common the presence of the [Cu2(mpba)2]4− tetraanionic unit which is a [3,3] metallacyclophane motif in which the copper(II) ions are five-coordinate in a distorted square pyramidal surrounding. The complex anion in 1 is dimerized through double out-of-plane copper to outer carboxylate-oxygen atoms resulting in the centrosymmetric tetracopper(II) fragment [Cu4(μ-mpba)4(H2O)2]8− which act as a ligand toward six hydrated lithium(I) cations leading to anionic ladder-like double chains whose charge is neutralized by the EDAP2+ cations. In the case of 2, each dicopper(II) entity acts as a ligand towards tetraquapotassium(I) units to afford anionic zig zag single chains of formula {K(H2O)4[Cu2(μ-mpba)2(H2O)2]}n3n− plus EDAP2+ cations and non-coordinate chloride anions. Cryomagnetic measurements on polycrystalline samples 1 and 2 show the occurrence of ferromagnetic interactions between the copper(II) ions across the –Namidate–(C–C–C)phenyl–Namidate– exchange pathway [J = +10.6 (1) and +8.22 cm−1 (2)] and antiferromagnetic ones through the double out-of-plane carboxylate-oxygen atoms [j = −0.68 cm−1 (1), the spin Hamiltonian being defined as H = − J ( S C u 1 · S C u 2 + S C u 2 i · S C u 1 i ) − j ( S C u 2 · S C u 2 i ) ].
Highlights
Nowadays molecular magnetism has become an interdisciplinary field in which scientists of different domains such as organic and inorganic chemistry, physical chemistry, condensed matter physics and biology have invested impressive research efforts
Due to the geometrical constraints of this ligand, it cannot adopt the tetradentate coordination mode observed in its parent ligand in which the two oxamate substituents are in ortho position; a cis-CuN2O2 coordination sphere occurs in relation to the bidentate oxamate groups
This work shows that the use of templating organic counterions such as EDAP2+ and coordinated alkaline cations may play a relevant structural role in the assembling of 1D coordination polymers with ladder-like double chain or zig zag chain structures depending on the nature of the univalent alkaline cation
Summary
Nowadays molecular magnetism has become an interdisciplinary field in which scientists of different domains such as organic and inorganic chemistry, physical chemistry, condensed matter physics and biology have invested impressive research efforts. Over the last two decades, research involving tetranuclear compounds has provided us with better mathematical models and accurate interpretations of the magnetic behaviors [3,4,5,6,7,8] even including magneto-structural correlations [9,10,11] In this direction, the design of the ligand is the first step but a crucial choice in the self-assembly of metal ions resulting in coordination compounds with predictable magnetic properties. High-nuclearity homometallic compounds with transition metal ions and mpba ligands were synthesized in a programmed stepwise manner such as the octanuclear copper(II) complex Na2{[Cu2(μ-mpba)3][Cu(pmdien)]6}(ClO4)6·12H2O (pmdien = N,N,N ,N , N -pentamethyldiethylenetriamine) and the octanickel(II) species {[Ni2(μ-mpba)3][Ni(dpt)(H2O)]6}(ClO4)4·12.5H2O [13] (dpt = dipropylenetriamine) Both compounds exhibit “dimer of tetramers” structures, with two oxamate-bridged propeller shaped tetranuclear units connected through three meta-substituted phenylenediamidate bridges.
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