metalperoxo

Metalperoxo refers to coordination complexes in which a peroxide fragment (O2^2−) is bound to a metal center. These species are key intermediates in dioxygen activation and are studied across transition metals, including iron, copper, manganese, cobalt, ruthenium, and others. They can adopt several structural motifs: terminal metal–peroxo (M–OO), side-on η2-O2 coordinated to a single metal, and μ-oxo-bridged or μ-η2:η2 dinuclear arrangements where the O2 unit is shared between two metals. Some related species are hydroperoxo (HO2−) ligands, formed by protonation of peroxo or by different reaction pathways.

Formation and reactivity: Metalperoxo complexes form by binding O2 to reduced metal centers, or by reacting

Spectroscopy and detection: They are characterized by UV–visible spectroscopy and resonance Raman, with O–O stretching vibrations

Applications and significance: Metalperoxo complexes illuminate mechanisms of oxygen activation by metals and inform the design