Four divalent transition metal carboxyarylphosphonate compounds: Hydrothermal synthesis, structural chemistry and generalized 2D FTIR correlation spectroscopy studies

Four divalent transition metal carboxyarylphosphonates, Ni(4,4′-bipy)H₂L¹(HL¹)₂(H₂O)₂]·2H₂O 1, Ni₂(4,4′-bipy)(L²)(OH)(H₂O)₂]·3H₂O 2, Mn(phen)₂(H₂L¹)₂3 and Mn(phen)(HL²) 4 (H₃L¹=p-H₂O₃PCH₂-C₆H₄-COOH, H₃L²=m-H₂O₃PCH₂-C₆H₄-COOH, 4,4′-bipy=4,4′-bipyridine, phen=1,10-phenanthroline) were synthesized under hydrothermal conditions. 1 features 1D linear chains built from Ni(II) ions bridging 4,4′-bipy. In 2, neighboring Ni₄ cluster units are connected by pairs of H₃L² ligands to form 1D double-crankshaft chains, which are interconnected by pairs of 4,4′-bipy into 2D sheets. 3 exhibits 2D supramolecular layers via the R₂²(8) ringed hydrogen bonding units. 4 has 1D ladderlike chains, in which the 4-membered rings are cross-linked by the organic moieties of the H₃L² ligands. Additionally, 2D FTIR correlation analysis is applied with thermal and magnetic perturbation to clarify the structural changes of functional groups from H₃L¹ and H₃L² ligands in the compounds more efficiently.