2019
DOI: 10.1021/acs.inorgchem.8b03459
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Metal–Oxyl Species and Their Possible Roles in Chemical Oxidations

Abstract: Metal−oxyl (M n+ -O • ) complexes having an oxyl radical ligand, which are electronically equivalent to well-known metal−oxo (M (n+1)+ O) complexes, are surveyed as a new category of metal-based oxidants. Detection and characterization of M n+ -O • species have been made in some cases, although proposals and characterization of the species are mostly done on the basis of density functional theory (DFT) calculations. The reactivity of M n+ -O • complexes will provide a way to achieve potentially difficult oxid… Show more

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Cited by 86 publications
(80 citation statements)
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“…Up to this point, we have simply referred to the [MO] 2+ sites as “metal–oxo” species in line with formal oxidation state counting rules. However, the true electronic structure of these [MO] 2+ sites is expected to exist on a spectrum with a varying degree of oxo and oxyl character (Figure a) . Several complementary methods can be used to assign a “best” resonance structure.…”
Section: Resultsmentioning
confidence: 99%
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“…Up to this point, we have simply referred to the [MO] 2+ sites as “metal–oxo” species in line with formal oxidation state counting rules. However, the true electronic structure of these [MO] 2+ sites is expected to exist on a spectrum with a varying degree of oxo and oxyl character (Figure a) . Several complementary methods can be used to assign a “best” resonance structure.…”
Section: Resultsmentioning
confidence: 99%
“…High-valent transition metal-oxo species have been invoked as reactive intermediates for aw ide range of oxidation reactions with both enzymatic and synthetic catalysts. [1][2][3] Many terminal oxo complexes are powerful oxidants and serve as promising active site motifs for the activation of strong CÀHbonds,such as those of light alkanes, at moderate reaction conditions. [1][2][3][4][5] However,t erminal oxo complexes are often difficult to isolate and probe experimentally as ad irect consequence of their inherent reactivity, especially those containing mid-to-late transition metals.…”
Section: Introductionmentioning
confidence: 99%
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“…[10] In particular,H AT reactions in non-heme iron(IV)-oxo complexes have been generally predicted to proceed via high spin transition states, [11][12][13] irrespective of the spin state of the initial iron-oxo complexes,aphenomenon known as two-state reactivity. [14,15] TheHAT reactions are frequently of aradical character, [16] but closed-shell oxidants can initiate them as well, [17,18] for example via proton-coupled electron transfer. [19] In this respect, reactivity of so far unknown closed shell ironoxo complexes can elucidate the role of unpaired electrons in Fe-O mediated oxidations.…”
Section: Introductionmentioning
confidence: 99%
“…However, neither the direct conversion of methane with O 2 to generate methanol nor the direct conversion of benzene with O 2 to produce phenol under mild conditions has been well established. Metal‐oxo species and other strong oxidants are often involved as reactive intermediates responsible for the catalytic oxidation of substrates including methane and benzene …”
Section: Introductionmentioning
confidence: 99%