Synthesis, Structure, and Physicochemical Properties of ((Ethylsulfanyl)porphyrazinato)cobalt(II). Metal-Ligand Bonds in Co(OESPz) and in Related Cobalt(II) Tetrapyrroles: Insigths from a Density Functional Study

The Co(OESPz) complex crystallizes in space group P21/n, with a = 10.260(5) Å, b = 22.650(5) Å, c = 16.720(5) Å, β = 91.680(5)°, and Z = 4 and forms, similarly to the isomorphous Mn(OESPz), solid-state extended one-dimensional aggregates where “ruffled” molecular units are held together by extra planar Co···S interactions. The complex, which contains a low-spin Co2+ (S = 1/2) ion, exhibits intermolecular ferromagnetic interactions (ϑ = 2.6 K, g = 2.44) propagated through a superexchange pathway by extra planar Co···S interactions, with a possible contribution of the π system. Co(OESPz) shows a Co−Np distance shorter than CoOEP and CoPc and a sensible electrochemical stabilization of the Co2+ vs Co3+ state. The bonding interactions between Co2+ and the macrocyclic ligands OMSPz2-, Pc2-, Pz2-, and P2- are analyzed in detail, within the density functional (DF) theory, to elucidate the effects of the ligand framework. It is concluded that the σ interactions, which are by far dominant in all members of the CoII tetrapyrrole series, in the aza-bridged complexes, particularly in CoPz and Co(OMSPz), are stronger than in CoP, due to the reduced “hole” size of the macrocycle. The π interactions, consisting of π back-donation from Co-3dπ into empty ring π orbitals and donation from the occupied ring π orbitals into the Co-4pz are rather weak, but there is a sizable contribution from polarization of the macrocyclic ligand. The aza bridges have little effect on the metal to ligand π back-donation which in Co(OMSPz) is completely absent; the peripheral substituents, which are responsible for large polarization effects, play a more relevant role in the metal−macrocycle π interactions. In all porphyrazines the total orbital interaction contribution (covalent component) prevails over the ionic component of the bond, the latter being identified as the sum of the Pauli repulsion and the attractive electrostatic interaction between Co2+ and the tetrapyrrole(2−).