Synthesis and structural characterization of a barium coordination polymer based on a μ₂-monoatomic bridging 4-nitrobenzoate

The synthesis, spectral characterization, crystal structure and properties of [Ba(H₂O)₂(NMF)₂(4-nba)₂], 1 (NMF = N-methylformamide; 4-nba = 4-nitrobenzoate), are reported. ¹H and ¹³C NMR spectral data reveal the presence of NMF in 1. A strong band at 1660 cm⁻¹ in the infrared spectrum indicates the binding of amide oxygen to Ba(II) which is confirmed by the single crystal structure. The unique Ba(II) in 1 situated on a mirror plane exhibits nine coordination and is bonded to two symmetry related monodentate terminal NMF ligands via the amide oxygen, and a terminal aqua ligand. The μ₂-monoatomic bridging binding mode of each of a crystallographically independent 4-nba ligand and a unique water ligand link the Ba(II) cations into an infinite chain extending along a, leading to the formation of a 1D coordination polymer with Ba···Ba separations of 4.2522(3) Å. In the chain, the {BaO₉} polyhedra are linked in a face sharing fashion. Thermal decomposition of 1 results in the formation of BaCO₃ residue. A comparative study of the structural chemistry of several barium coordination polymers is described.