Synthesis and crystal structure of catena-poly[cobalt(II)-di- μ -chlorido- μ -pyridazine- κ 2N1:N2]

The reaction of cobalt dichloride hexahydrate with pyridazine leads to the formation of crystals of the title compound, [CoCl2(C4H4N2)]n. This compound is isotypic to a number of compounds with other divalent metal ions. Its asymmetric unit consists of a Co2+ atom (site symmetry 2/m), a chloride ion (site symmetry m) and a pyridazine molecule (all atoms with site symmetry m). The Co2+ cations are coordinated by four chloride anions and two pyridazine ligands, generating trans-CoN4Cl2 octahedra, and are linked into [010] chains by pairs of μ -1,1-bridging chloride anions and bridging pyridazine ligands. In the crystal structure, the pyridazine ligands of neighboring chains are stacked onto each other, indicating π – π interactions. Powder X-ray diffraction proves that a pure crystalline phase was obtained. Differential thermonalysis coupled to thermogravimetry (DTA – TG) reveal that decomposition is observed at about 710   K. Magnetic measurements indicate low-temperature metamagnetic behavior as already observed in a related compound.
Source: Acta Crystallographica Section E - Category: Chemistry Authors: Tags: synthesis crystal structure one-dimensional coordination compound research communications Source Type: research
More News: Chemistry | Chloride | Cobalt