Questing for homoleptic mononuclear manganese complexes with monodentate O-donor ligands

Compounds containing Mn-O bonds are of utmost importance in biological systems and catalytic processes. Nevertheless, mononuclear manganese complexes containing all O-donor ligands are still rare. Taking advantage of the low tendency of the pentafluoroorthotellurate ligand (teflate, OTeF 5 ) to bridge metal centers, we have synthesized two homoleptic manganese complexes with monomeric structures and an all O-donor coordination sphere. The tetrahedrally distorted Mn II anion, [Mn(OTeF 5 ) 4 ] 2− , can be described as a high spin d 5 complex ( S = 5/2), as found experimentally (magnetic susceptibility measurements and EPR spectroscopy) and using theoretical calculations (DFT and CASSCF/NEVPT2). The high spin d 4 electronic configuration ( S = 2) of the Mn III anion, [Mn(OTeF 5 ) 5 ] 2− , was also determined experimentally and theoretically, and a square pyramidal geometry was found to be the most stable one for this complex. Finally, the bonding situation in both complexes was investigated by means of the Interacting Quantum Atoms (IQA) methodology and compared to that of hypothetical mononuclear fluoromanganates. Within each pair of [MnX n ] 2− ( n = 4, 5) species (X = OTeF 5 , F), the Mn-X interaction is found to be comparable, therefore proving that the similar electronic properties of the teflate and the fluoride are also responsible for the stabilization of these unique species. High spin monomeric complexes [Mn II (OTeF 5 ) 4 ] 2− and [Mn III (OTeF 5 ) 5 ] 2− represent novel homoleptic coordination environments at Mn( ii ) and Mn( iii ) centers with monodentate O-donor ligands.