Electron Paramagnetic Resonance Signature of Tetragonal Low Spin Iron(V)-Nitrido and -Oxo Complexes Derived from the Electronic Structure Analysis of Heme and Non-Heme Archetypes

[Image: see text] Iron(V)-nitrido and -oxo complexes have been proposed as key intermediates in a diverse array of chemical transformations. Herein we present a detailed electronic-structure analysis of [Fe(V)(N)(TPP)] (1, TPP(2–) = tetraphenylporphyrinato), and [Fe(V)(N)(cyclam-ac)](+) (2, cyclam-ac = 1,4,8,11-tetraazacyclotetradecane-1-acetato) using electron paramagnetic resonance (EPR) and (57)Fe Mössbauer spectroscopy coupled with wave function based complete active-space self-consistent field (CASSCF) calculations. The findings were compared with all other well-characterized genuine iron(V)-nitrido and -oxo complexes, [Fe(V)(N)(MePy(2)tacn)](PF(6))(2) (3, MePy(2)tacn = methyl-N′,N″-bis(2-picolyl)-1,4,7-triazacyclononane), [Fe(V)(N){PhB(t-BuIm)(3)}](+) (4, PhB((t)BuIm)(3)(–) = phenyltris(3-tert-butylimidazol-2-ylidene)borate), and [Fe(V)(O)(TAML)](−) (5, TAML(4–) = tetraamido macrocyclic ligand). Our results revealed that complex 1 is an authenticated iron(V)-nitrido species and contrasts with its oxo congener, compound I, which contains a ferryl unit interacting with a porphyrin radical. More importantly, tetragonal iron(V)-nitrido and -oxo complexes 1–3 and 5 all possess an orbitally nearly doubly degenerate S = 1/2 ground state. Consequently, analogous near-axial EPR spectra with g(||) < g(⊥) ≤ 2 were measured for them, and their g(||) and g(⊥) values were found to obey a simple relation of g(⊥)(2) + (2 – g(∥))(2) = 4. However, the bonding situation for trigonal iron(V)-nitrido complex 4 is completely different as evidenced by its distinct EPR spectrum with g(||) < 2 < g(⊥). Further in-depth analyses suggested that tetragonal low spin iron(V)-nitrido and -oxo complexes feature electronic structures akin to those found for complexes 1–3 and 5. Therefore, the characteristic EPR signals determined for 1–3 and 5 can be used as a spectroscopic marker to identify such highly reactive intermediates in catalytic processes.