Towards the chemical control of molecular packing: Syntheses and crystal structures of three trans-[NiL 4(NCS)2] complexes

Abstract

Three nickel(II) isothiocyanato complexes of the formula trans-[NiL 4(NCS)2] (L = ethylisonicotinate, methylisonicotinate and 4-benzoylpyridine) have been prepared: [Ni(ethyl-isonicotinate)4(NCS)2] (I), [Ni(methylisonicotinate)4(NCS)2] (II) and [Ni(4-benzoylpyridine)4(NCS)2] (III). All three complexes are monomeric and have a distorted octahedral geometry around NiII. Despite their apparent molecular similarity, the crystal density of (III) (1.454 g cm-3) is significantly higher than that of (I) and (II) (both 1.408 g cm-3), suggesting that the molecular packing is most efficient in (III). A study of the molecular Hirshfeld surfaces, together with density functional theory (DFT) calculations, provide insights into the origin of the molecular packing features, and it is suggested that the greater crystal density of (III) results from smaller intermolecular electrostatic repulsions. © 2014 International Union of Crystallography.