Abstract
High-valent Fe-OH species are important intermediates in hydroxylation chemistry. Such complexes have been implicated in mechanisms of oxygen-activating enzymes and have thus far been observed in Compound II of sulfur-ligated heme enzymes like cytochrome P450. Attempts to synthetically model such species have thus far seen relatively little success. Here, the first synthetic FeIVOH n complex has been generated and spectroscopically characterized as either [LFeIVOH]- or [LFeIVOH2]0, where H4L = Me4C2(NHCOCMe2NHCO)2CMe2 is a variant of a tetra-amido macrocyclic ligand (TAML). The steric bulk provided by the replacement of the aryl group with the -CMe2CMe2- unit in this TAML variant prevents dimerization in all oxidation states over a wide pH range, thus allowing the generation of FeIVOH n in near quantitative yield from oxidation of the [LFeIIIOH2]- precursor.
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