High-valent metal–oxo species with multiply-bonded M–O groups have been proposed as
key intermediates in many biological and abiological catalytic oxidation reactions. These …

Conspectus Recent efforts to design synthetic iron catalysts for the selective and efficient
oxidation of C–H and C C bonds have been inspired by a versatile family of nonheme iron …

An unprecedentedly reactive iron species (2) has been generated by reaction of excess
peracetic acid with a mononuclear iron complex [FeII (CF3SO3) 2 (PyNMe3)](1) at cryogenic …

The development of sustainable enantioselective olefin epoxidation and alkane oxidation
reactions under environmentally friendly conditions is an ultimate goal that has long been …

The selective oxidation of hydrocarbons is a challenging reaction for synthetic chemists, but
common in nature. Iron oxygenases activate the O–O bond of dioxygen to perform oxidation …

Iron coordination complexes with nitrogen and oxygen donor ligands have long since been
known to react with peroxides producing powerful oxidizing species. These compounds can …

Catalytic oxidation reactions are pivotal transformations in living creatures and chemical
industries, in which metal-oxygen intermediates, including high-valent metal-oxo species …

NiFe (oxy) hydroxides (NiFeOOH) are considered as one of the most efficient
electrocatalysts for water splitting. Although several strategies recently have been …

The reaction of [(PyNMe3) FeII (CF3SO3) 2], 1, with excess peracetic acid at− 40° C
generates a highly reactive intermediate, 2b (PAA), that has the fastest rate to date for …

Oxidation reactions catalyzed by enzymes with central iron atoms are essential to life. The
nature of these systems has evoked great interest to understand and model their reactivity …