A NOVEL 3D ENERGETIC COORDINATION POLYMER CONTAINING Co(II) ATOMS IN A PENTANUCLEAR CLUSTER
A novel coordination polymer [Co5(OH)2(dnbpdc)4(H2O)6] • 16H2O (1) (dnbpdc = 6,6'-dinitro-4,4'-biphenyl-dicarboxylic acid) is obtained from a hydrothermal reaction. The structure of complex 1 is characterized by elemental analysis, IR spectroscopy, and single crystal X-ray diffraction analysis. The title compound (C56H70Co5N8O56, Mr = 2045.85) crystallizes in the triclinic space group P-1 with a = 11.9349(2) Å, b = 12.1895(2) А, c = 15.420(2) Å, a = 109.390(7)°, P = 94.786(1)°, у = 108.027(9)°, V = 1968.4(4) Å3, Z = 1, Dc = 1.726 g/cm3, F(000) = 1045, |a,(MoKa) = 1.154 mm-1, T = 133(2) K, the final R = 0.0316 and wR = 0.0692 for 7032 observed reflections with I > 2a(I). The coordination polymer is built of a pentanu-clear Co(II) cluster, four dnbpdc ligands, two hydroxyl groups, six coordination water and sixteen crystal water molecules. Ligand oxygen atoms exhibit three types of coordination modes (monodentate, syn-syn bridging bidentate and bridging tridentate). Moreover, the infinite three-dimensional supra-molecular network is generated by coordination and hydrogen bonds. The thermal stability of complex 1 is evaluated by differential scanning calorimetry and thermo-gravimetric analysis.
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The structure of complex 1 is characterized by elemental analysis, IR spectroscopy, and single crystal X-ray diffraction analysis. <...> The coordination polymer is built of a pentanuclear Co(II) cluster, four dnbpdc ligands, two hydroxyl groups, six coordination water and sixteen crystal water molecules. <...> Ligand oxygen atoms exhibit three types of coordination modes (monodentate, syn-syn bridging bidentate and bridging tridentate). <...> Moreover, the infinite threedimensional supra-molecular network is generated by coordination and hydrogen bonds. <...> The thermal stability of complex 1 is evaluated by differential scanning calorimetry and thermogravimetric analysis. <...> INTRODUCTION The interest in the rational design and synthesis of metal-organic coordination polymers (MOCPs) has been rapidly increasing in recent years due to multiform frameworks as well as potential applications of these compounds in functional materials [ 1—11]. <...> Particularly, MOCPs involving carboxylic acid compounds as ligands, such as various aliphatic, aromatic, and heterocyclic acids, exhibit diverse network topologies and remarkable applicable prospect. <...> Therefore, the construction and analysis of novel MOCPs consisting of carboxylate compounds is a hotspot in this field [12—15 ]. <...> Aromatic carboxylic acids bearing coordination diversity and moderate stability, such as biphenyl acids, are a good choice in the designed synthesis of MOCPs [16—18 ]. <...> In addition, the prospect of introducing the second function group into aryl rings provides further impetus. <...> For instance, we have synthesized a series of novel MOCPs as heat-resistant energetic materials based on the bpdc ligand [19—23 ]. <...> In this paper, we used dnbpdc as a ligand due to the following consideration: (a) the carboxylate oxygen atom of dnbpdc can adopt several coordination modes (bridging, monodentate, and chelating) which allow the construction of multidimensional systems; (b) in deprotonated dnbpdc, two phenyl rings are not coplanar with each other owing to the steric hindrance of nitro groups; a distortion of the Wu R.-F., Shi H.-P., Zhang J.-R., Chang F.-F., 2015 1190 R.-F. WU, H.-P. SHI, J.-R. ZHANG, F.-F. CHANG diphenyl spacer about the central bond allows dnbpdc to link metal ions or metal clusters into macrocycles or one dimensional chains <...>
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