From Achiral Precursors to Copper Helical Coordination Polymers: Magnetic Properties and Electronic Structure

We introduce two novel one-dimensional coordination polymers (CPs) with helical arrangements based on copper­(II) and an achiral Schiff base ligand, [Cu­(L)­(DMF)­(X)] n (X = NO3 – (1) and Cl– (2)), where L = 2-{[(pyridin-3-yl)­imino]­methyl}­phenol. Both structures crystallize in an orthorhombic unit cell with a P212121 space group. In both compounds, unconventional noncovalent interactions are fundamental for the structural features, modulating the dihedral angle ca. 70° between the two aromatic rings that are part of the organic ligand. Magnetic measurements indicate that weak antiferromagnetic interactions predominate in both CPs, with a J value of −3.34 cm–1 for 1 and −4.95 cm–1 for 2, corroborated by ab initio first-principles calculations. Furthermore, electronic structure analyses reveal a semiconductor behavior for both CPs. First-principles calculations predict small polaron localization around the Cu sites, with a higher formation of electron polarons in compound 1 than in 2.