Structural control in Cu(II) coordination polymers through the conformational flexibility of a 2,3-dipyridyl ketone oxime ligand

Four new compounds prepared from the ligand 2,3-dipyridyl ketone oxime (L ²³) with varying Cu(II) salts were synthesised and structurally characterised, {[Cu(L ²³)(L ²³ -H)](ClO₄)}_∞ (1), {[Cu(L ²³)(L ²³ -H)](BF₄)¼(H₂O)}_∞ (2), [Cu₃(L ²³ -H)₂(L ²³′)(NO₃)₂OH]₂(NO₃)₂(C₃H₈O)₆ (3) and [Cu(L ²³)Cl₂]_∞ (4). The effects of differing counterions, as well as the rotational conformational versatility of L ²³, were demonstrated by the differing polymeric structures that were observed. Complex 1 and 2 both existed as 1-D polymeric chains with L ²³ acting as a pseudo-tetradentate ligand through an oxime–oximato bridge. Complex 1 formed a helical arrangement while 2 formed a chiral chain with both 1 and 2 exhibiting similar chiral packing. Complex 3 formed an unusual inverse–9–metallacrown–3 complex, with one of the L ²³ ligands in a zwitterionic form. Complex 4 was present as a simple 1-D meso-helical chain.