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Effect of different carboxylic acids on the aromatic hydroxylation with H2O2 in the presence of an iron aminopyridine complex. / Tkachenko, Nikolay V.; Lyakin, Oleg Y.; Zima, Alexandra M. и др.
в: Journal of Organometallic Chemistry, Том 871, 15.09.2018, стр. 130-134.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Effect of different carboxylic acids on the aromatic hydroxylation with H2O2 in the presence of an iron aminopyridine complex
AU - Tkachenko, Nikolay V.
AU - Lyakin, Oleg Y.
AU - Zima, Alexandra M.
AU - Talsi, Evgenii P.
AU - Bryliakov, Konstantin P.
N1 - Publisher Copyright: © 2018 Elsevier B.V.
PY - 2018/9/15
Y1 - 2018/9/15
N2 - In this contribution, the effect of the structure of the catalytic additive – carboxylic acid – on the catalytic performance of the iron based catalyst [(PDP)Fe(OTf)2], 2 (PDP = N,N′-bis(2-pyridylmethyl)-(S,S)-2,2′-bipyrrolidine) in the selective aromatic oxidation of alkylbenzenes with H2O2 is presented. Eight (linear and branched) carboxylic acids have been tested; in the presence of 2-ethylhexanoic acid, the system [(PDP)Fe(OTf)2]/RCOOH/H2O2 has demonstrated the highest substrate conversion and the highest selectivity for oxygen incorporation into the aromatic ring (up to > 99%) at the same time. Low-temperature EPR spectroscopic study of the system [(PDP)Fe(OTf)2]/2-ethylhexanoic acid/H2O2 witness the presence of the low-spin perferryl intermediate 2aEHA with small g-factor anisotropy (g1 = 2.069, g2 = 2.007, g3 = 1.963), which directly reacts with benzene at −80 °C with the rate constant k2 = 0.6 M−1s−1, and with toluene with k2 > 1 M−1s−1, thus giving evidence for its key role in the selective oxygenation of aromatic substrates.
AB - In this contribution, the effect of the structure of the catalytic additive – carboxylic acid – on the catalytic performance of the iron based catalyst [(PDP)Fe(OTf)2], 2 (PDP = N,N′-bis(2-pyridylmethyl)-(S,S)-2,2′-bipyrrolidine) in the selective aromatic oxidation of alkylbenzenes with H2O2 is presented. Eight (linear and branched) carboxylic acids have been tested; in the presence of 2-ethylhexanoic acid, the system [(PDP)Fe(OTf)2]/RCOOH/H2O2 has demonstrated the highest substrate conversion and the highest selectivity for oxygen incorporation into the aromatic ring (up to > 99%) at the same time. Low-temperature EPR spectroscopic study of the system [(PDP)Fe(OTf)2]/2-ethylhexanoic acid/H2O2 witness the presence of the low-spin perferryl intermediate 2aEHA with small g-factor anisotropy (g1 = 2.069, g2 = 2.007, g3 = 1.963), which directly reacts with benzene at −80 °C with the rate constant k2 = 0.6 M−1s−1, and with toluene with k2 > 1 M−1s−1, thus giving evidence for its key role in the selective oxygenation of aromatic substrates.
KW - Aromatic oxidation
KW - Electrophilic substitution
KW - Hydrogen peroxide
KW - Intermediates
KW - Iron
KW - Oxidation
KW - OXIDATION
KW - BENZENE
KW - EPR
KW - REACTIVITY
KW - EPOXIDATION
KW - HYDROGEN-PEROXIDE
KW - SELECTIVITY
KW - CATALYSTS
KW - FE
UR - http://www.scopus.com/inward/record.url?scp=85049985652&partnerID=8YFLogxK
U2 - 10.1016/j.jorganchem.2018.07.016
DO - 10.1016/j.jorganchem.2018.07.016
M3 - Article
AN - SCOPUS:85049985652
VL - 871
SP - 130
EP - 134
JO - Journal of Organometallic Chemistry
JF - Journal of Organometallic Chemistry
SN - 0022-328X
ER -
ID: 14869865