2005
DOI: 10.1039/b508004e
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ortho-Hydroxylation of benzoic acids with hydrogen peroxide at a non-heme iron center

Abstract: The iron-assisted hydroxylation of benzoic acid to salicylic acid by 1/H2O2 has been achieved in good yield under mild conditions (where is [Fe(II)(BPMEN)(CH3CN)2](ClO4)2 and BPMEN =N,N'-dimethyl-N,N'-bis(2-pyridylmethyl)ethane-1,2-diamine); the product of this reaction is a novel mononuclear iron(III) complex with a chelating salicylate.

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Cited by 92 publications
(63 citation statements)
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“…Competition experiments also showed no preference of 1 in reacting with either protio or deuterio isotopomers, so C À H bond breaking on the phenyl ring cannot be a rate limiting step in this transformation. [36] Similarly small H/D KIE values ( 1) were also reported for other aromatic oxidations promoted by biological and synthetic iron centers, [8,27,29,[61][62][63][64] and interpreted in terms of either a rate-limiting formation of an iron-oxo intermediate [29] or a rate-limiting electrophilic attack of the aromatic ring by a metal-based oxidant (a process that is typically characterized by only a small but inverse isotope effect). [27,61,62,65,66] 18 O-labeling experiments with H 2 18 O 2 unambiguously showed the incorporation of one oxygen atom into the phenolate or salicylate product derived from the oxidations of benzoic acids, underscoring the fact that hydrogen peroxide is the sole source of the oxygen atom incorporated into the products.…”
Section: Mechanistic Insightsmentioning
confidence: 82%
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“…Competition experiments also showed no preference of 1 in reacting with either protio or deuterio isotopomers, so C À H bond breaking on the phenyl ring cannot be a rate limiting step in this transformation. [36] Similarly small H/D KIE values ( 1) were also reported for other aromatic oxidations promoted by biological and synthetic iron centers, [8,27,29,[61][62][63][64] and interpreted in terms of either a rate-limiting formation of an iron-oxo intermediate [29] or a rate-limiting electrophilic attack of the aromatic ring by a metal-based oxidant (a process that is typically characterized by only a small but inverse isotope effect). [27,61,62,65,66] 18 O-labeling experiments with H 2 18 O 2 unambiguously showed the incorporation of one oxygen atom into the phenolate or salicylate product derived from the oxidations of benzoic acids, underscoring the fact that hydrogen peroxide is the sole source of the oxygen atom incorporated into the products.…”
Section: Mechanistic Insightsmentioning
confidence: 82%
“…[36,55] The reaction was accompanied by the appearance of a deep blue color (l max = 590 nm). The final UV/Vis spectrum was identical to that of the independently prepared salicylate complex [Fe…”
Section: Resultsmentioning
confidence: 99%
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“…No diol is observed. The nature of oxidizing species formed under these conditions is not established and has been the subject of some discussion [26,27]. Ryu et al investigated the use of the 5-Mesubstituted analogue of TPA (12) under similar conditions [15].…”
Section: Olefin Epoxidation and Cis-dihydroxylation With High Substramentioning
confidence: 99%
“…Hydrogen peroxide is capable of oxidizing iron(II) into iron(III) in its complexes with bpmen, especially in the presence of additional carboxylate ligands [20]. The initially formed mononuclear iron(III) complex may undergo further reactions with various components of epoxidizing solutions, producing an active oxidant [21,22].…”
Section: Introductionmentioning
confidence: 99%