Significant Effect of 2 nd Sphere Interactions on the Reductive Activation of O 2 by non‐heme Iron(II) Complexes – Application to the Electroassisted Oxidation of Thioanisole

New mononuclear non‐heme Fe II complexes derived from a well‐known pentadentate amine/pyridine ligand were synthesized. The new ligand bears an additional OH group on one pyridyl aimed at developing second sphere hydrogen bonds. Two binding modes of the ligand were observed that can be selectively o...

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Published in:European journal of inorganic chemistry 2024-04, Vol.27 (11)
Main Authors: Robinson, Amanda Lyn, Bannerman, Eva, Guillot, Régis, Herrero, Christian, Sénéchal‐David, Katell, Rivière, Eric, Banse, Frédéric, Rebilly, Jean‐Noël
Format: Article
Language:English
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Summary:New mononuclear non‐heme Fe II complexes derived from a well‐known pentadentate amine/pyridine ligand were synthesized. The new ligand bears an additional OH group on one pyridyl aimed at developing second sphere hydrogen bonds. Two binding modes of the ligand were observed that can be selectively obtained through the choice of the counterion: the OH group develops an intramolecular H‐bond with the 6 th exogenous ligand in the classical mode, or an intermolecular one with the unbound triflate counterion in the alternative mode. The complexes were studied by cyclic voltammetry in the reductive activation of O 2 . The addition of an H‐bond improves the O 2 activation potential with a gain of 90 mV in the classical case and 220 mV in the alternative one. The difference is ascribed to the development of stabilizing H‐bonds within the Fe III ‐peroxo intermediate with the proximal O atom of peroxo (classical mode) or the distal one (alternative mode). Ultimately, the complex in the alternative mode activates O 2 at −0.5 V vs SCE (500 mV gain compared to free O 2 ). We took advantage of this significantly reduced energetic cost to carry out and achieve the electroassisted oxidation of thioanisole by O 2 at −0.5 V vs SCE.
ISSN:1434-1948
1099-0682
DOI:10.1002/ejic.202300694