A feasibility study on obtaining d-orbital populations from aspherical-atom refinements on three spin crossover compounds

Abstract

Although compounds undergoing thermally induced spin crossover have been widely studied, their experimental d-orbital populations from single-crystal X-ray diffraction have rarely been reported. Three pairs of structures of iron/manganese coordination compounds were re-evaluated. Least-squares refinements relied on aspherical scattering factors obtained from molecular quantum-mechanical DFT single-point computations of the respective solid-state conformation, initiated by accurate starting structures from preliminary invariom refinements of the ligand environment. Further evaluation concerned d-orbital populations of metal ions from (a) single-point computations projected onto the Hansen-Coppens multipole model and from (b) experimental refinements of the metal atoms only. The latter were successful for good-quality data, independent of temperature, and provided only one spin state was exclusively present in the crystal. Crystals that underwent light-induced excited spin state trapping were not showing the expected d-orbital populations.