Two fumarato-bridged Co(II) coordination polymers: syntheses, crystal structures and properties of Co(H2O)4L and [Co3(H2O)4(OH)2L2]·2H2O with H2LHOOCCHCHCOOH

Zheng, Yue–Qing; Xie, Hongzhen

doi:10.1016/j.jssc.2003.11.008

Cited by 36 publications

(32 citation statements)

References 19 publications

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“…MOFs containing the fumarate ligand, trans-(O 2 CH¼ CHCO 2 ) 2 À (fum), are known to show interesting magnetic properties [4,5] and also highly selective gas sorption behaviour [6]. Examples of 1-D and 2-D coordination polymers involving 'fum' as a bridging ligand have also been reported in the literature [7][8][9]. It is noted that, in addition to coordination bonds, non-covalent forces such as hydrogen bonding, C-H Á Á Á p, and pÀp interactions may also be important in governing the formation of such supramolecular solids [8,[10][11][12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and properties of a few 1-D cobaltous fumarates

Bora

Das

2012

Journal of Solid State Chemistry

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Section: Introductionmentioning

confidence: 99%

Synthesis and properties of a few 1-D cobaltous fumarates

Bora

Das

2012

Journal of Solid State Chemistry

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“…Indeed, in our previous work, the 2:1 metal:ligand stoichiometry of the starter reactants resulted in 1D CPs with 1:1 metal:ligand ratio using method A, 14 and 3D CPs with 2:1 metal:ligand ratio using method B. 14,18 Contrary here, the same starter reactants, now having aip as ligand instead fum or dhbdc, result in a same product, characterized as [Zn(aip)(DMSO)] (1) (see single crystal X-ray results), regardless of whether the method is A or B (Figure 1). Therefore, establishing an analogy with our previous results, 14 compound 1 can be considered both the kinetic and the thermodynamically stable product.…”

Section: Structural Invariance Of [Zn(aip)(dmso)] (1) Under Differentmentioning

confidence: 93%

“…14 The 2:1 metal:ligand ratio was the stoichiometry chosen to compare the influence of the methods in the expectation of obtaining higher dimensionality CPs (2D or 3D) as achieved by Dietzel et al 18 working with Zn II and dhbdc. Indeed, in our previous work, the 2:1 metal:ligand stoichiometry of the starter reactants resulted in 1D CPs with 1:1 metal:ligand ratio using method A, 14 and 3D CPs with 2:1 metal:ligand ratio using method B.…”

Section: Structural Invariance Of [Zn(aip)(dmso)] (1) Under Differentmentioning

confidence: 99%

“…Over again, the bulk materials obtained from all stoichiometries result in 1 as pure crystal phase (see powder X-ray results), even for the 3:1 and 4:1 metal:ligand stoichiometries, that could favor the formation of CPs with other structures or higher dimensionalities. 14,18 Finally, since the use of temperature is an intrinsic variant in the hydrothermal via, this method was chosen to test the influence of this variable in the structure and dimensionality of the CPs obtained from the starter reactants used here. The tested reactional temperatures, 70 and 100 °C, results in bulk materials constituted by a mixture of compound 1 (majority phase) and a spurious unknown crystal phase (see PXRD discussion).…”

Section: Structural Invariance Of [Zn(aip)(dmso)] (1) Under Differentmentioning

confidence: 99%

“…14 The use of diffusion method favors the formation of 1D CPs, 14 whereas the use of pH control method favors the formation of 3D CPs. 14,18 It was demonstrated that the synthetic method could play a crucial role in the structure and dimensionality of CPs since the same starter reactants provided distinct products.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Structural Invariance of a ZnII Coordination Polymer with 5-Aminoisophthalic Acid under Different Synthetic Conditions

Rosa¹,

Santos²,

Giusto³

et al. 2017

J. Braz. Chem. Soc.

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A same coordination polymer [Zn(aip)(DMSO)] (aip: 5-aminoisophthalate and DMSO: dimethylsulfoxide) was synthesized using the same reactants (ZnSO 4 , aip and H 2 O/DMSO) but in different conditions, in which the stoichiometry (1:1-4:1 metal:ligand ratio), temperature (70 and 100 °C) and synthetic method (liquid-liquid diffusion, solvothermal and conventional with stirring) varied. A liquid assisted mechanochemical approach using ZnO as Zn II source instead ZnSO 4 , but keeping DMSO as milling liquid, also resulted in the same compound. This new coordination polymer was investigated using single-crystal X-ray diffraction technique, revealing a two-dimensional honeycomb-type network formation. The crystal structure was compared with either similar or isostructural compounds reported in the literature. Our studies show that the synthetic method and other synthetic variables do not affect the formation of [Zn(aip)(DMSO)] coordination polymers and probe the high stability (thermodynamic and kinetic) and structural invariance of this structure.

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Cobalt and Nickel Oxide Architectures in Metal Carboxylate Frameworks: From Coordination Polymers to 3D Inorganic Skeletons

2006

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This microreview is devoted to the synthesis and properties of nickel and cobalt polycarboxylates, which are classified in terms of the geometries of the organic moieties. It is divided into three main sections — dicarboxylates, tricarboxylates and tetra‐ and hexacarboxylates — and discusses the extreme diversity of these architectures. Numerous topologies can be obtained, ranging from coordination polymers to 3D inorganic skeletons. This microreview begins with the widely studied cobalt succinate system, for which, to date, seven compounds have been reported. Then, examples from malonate to pimelate illustrate the influence of the length of the organic ligand, whereas examples from fumarate to diphenate illustrate the effects of rigidity and complexity. In the same way, examples from trimesate to mellitate show the effects of “multiconnecting” organic partners. These latter seem to disadvantage metal oxide condensation, since the two 3D inorganic frameworks contain linear dicarboxylate ions. On the other hand, 3D nickel oxide skeletons seem to be easier to synthesise than cobalt ones. Moreover, under similar hydrothermal conditions, using cobalt and nickel generally leads to different architectures.(© Wiley‐VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2006)

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Two fumarato-bridged Co(II) coordination polymers: syntheses, crystal structures and properties of Co(H2O)4L and [Co3(H2O)4(OH)2L2]·2H2O with H2LHOOCCHCHCOOH

Cited by 36 publications

References 19 publications

Synthesis and properties of a few 1-D cobaltous fumarates

Synthesis and properties of a few 1-D cobaltous fumarates

Structural Invariance of a ZnII Coordination Polymer with 5-Aminoisophthalic Acid under Different Synthetic Conditions

Cobalt and Nickel Oxide Architectures in Metal Carboxylate Frameworks: From Coordination Polymers to 3D Inorganic Skeletons

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