Ligand-Constraint-Induced Peroxide Activation for Electrophilic Reactivity

mu-1,2-peroxo-bridged diiron(III) intermediates P are proposed as reactive intermediates in various biological oxidation reactions. In sMMO, P acts as an electrophile, and performs hydrogen atom and oxygen atom transfers to electron-rich substrates. In cyanobacterial ADO, however, P is postulated to react by nucleophilic attack on electrophilic carbon atoms. In biomimetic studies, the ability of mu-1,2-peroxo-bridged dimetal complexes of Fe, Co, Ni and Cu to act as nucleophiles that effect deformylation of aldehydes is documented. By performing reactivity and theoretical studies on an end-on mu-1,2-peroxodicobalt(III) complex 1 involving a non-heme ligand system, L1, supported on a Sn6O6 stannoxane core, we now show that a peroxo-bridged dimetal complex can also be a reactive electrophile. The observed electrophilic chemistry, which is induced by the constraints provided by the Sn6O6 core, represents a new domain for metal-peroxide reactivity.

Automated summary

The study explores the reactivity of mu-1,2-peroxo-bridged diiron(III) intermediates P as reactive intermediates in various biological oxidation reactions, showcasing both electrophilic and nucleophilic reactions. It also highlights the ability of mu-1,2-peroxo-bridged dimetal complexes to effect deformylation of aldehydes in biomimetic studies.