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1
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Bushmin D.S.
, Samsonenko D.G.
, Talsi E.P.
, Lyakin O.Y.
, Bryliakov K.P.
Diverting Ni‐Catalyzed Direct Benzylic C–H Hydroxylation towards Trifluoroethoxylation
ChemCatChem. 2024.
V.16. N7. e202301346
:1-9. DOI: 10.1002/cctc.202301346
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2
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Lyakin O.Y.
, Bushmin D.S.
, Talsi E.P.
, Bryliakov K.P.
Ni- and Pd-Based Homogeneous Catalyst Systems for Direct Oxygenation of C(sp3)-H Groups
Applied Organometallic Chemistry. 2023.
V.37. N1. e6908
:1-27. DOI: 10.1002/aoc.6908
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3
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Zima A.M.
, Babushkin D.E.
, Lyakin O.Y.
, Talsi E.P.
, Bryliakov K.P.
High-Spin and Low-Spin State Perferryl Intermediates: Reactivity-Selectivity Correlation in Fe(PDP) Catalyzed Oxidation of (+)-Sclareolide
ChemCatChem. 2022.
V.14. N2. e202101430
:1-5. DOI: 10.1002/cctc.202101430
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4
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Zima A.M.
, Lyakin O.Y.
, Bryliakova A.A.
, Babushkin D.E.
, Bryliakov K.P.
, Talsi E.P.
Reactivity vs. Selectivity of Biomimetic Catalyst Systems of the Fe(PDP) Family through the Nature and Spin State of the Active Iron-Oxygen Species
Chemical Record. 2022.
V.22. N5. e202100334
:1-18. DOI: 10.1002/tcr.202100334
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5
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Zima A.M.
, Lyakin O.Y.
, Bryliakova A.A.
, Babushkin D.E.
, Bryliakov K.P.
, Talsi E.P.
Effect of Brønsted Acid on the Reactivity and Selectivity of the Oxoiron(V) Intermediates in C-H and C=C Oxidation Reactions
Catalysts. 2022.
V.12. N9. 949
:1-14. DOI: 10.3390/catal12090949
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6
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Zima A.M.
, Lyakin O.Y.
, Bryliakov K.P.
, Talsi E.P.
Low‐Spin and High‐Spin Perferryl Intermediates in Non‐Heme Iron Catalyzed Oxidations of Aliphatic C–H Groups
Chemistry - A European Journal. 2021.
V.27. N28. P.7781-7788. DOI: 10.1002/chem.202004395
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7
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Zima A.M.
, Lyakin O.Y.
, Bushmin D.S.
, Soshnikov I.E.
, Bryliakov K.P.
, Talsi E.P.
Non-Heme Perferryl Intermediates: Effect of Spin State on the Epoxidation Enantioselectivity
Molecular Catalysis. 2021.
V.502. 111403
:1-6. DOI: 10.1016/j.mcat.2021.111403
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8
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Lubov D.P.
, Lyakin O.Y.
, Samsonenko D.G.
, Rybalova T.V.
, Talsi E.P.
, Bryliakov K.P.
Palladium Aminopyridine Complexes Catalyzed Selective Benzylic C–H Oxidations with Peracetic Acid
Dalton Transactions. 2020.
V.49. N32. P.11150-11156. DOI: 10.1039/d0dt02247k
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9
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Zima A.M.
, Lyakin O.Y.
, Lubov D.P.
, Bryliakov K.P.
, Talsi E.P.
Aromatic C-H Oxidation by Non-heme Iron(V)-oxo Intermediates Bearing Aminopyridine Ligands
Molecular Catalysis. 2020.
V.483. 110708
:1-8. DOI: 10.1016/j.mcat.2019.110708
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10
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Zima A.M.
, Lyakin O.Y.
, Lubov D.P.
, Bryliakov K.P.
, Talsi E.P.
Corrigendum to “Aromatic C-H Oxidation by Non-Heme Iron(V)-oxo Intermediates Bearing Aminopyridine Ligands” [Mol. Catal. 483 (2020), 110708]
Molecular Catalysis. 2020.
V.493. 111039
:1-1. DOI: 10.1016/j.mcat.2020.111039
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11
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Lyakin O.Y.
, Bryliakov K.P.
, Talsi E.P.
Non-Heme Oxoiron(V) Intermediates in Chemo-, Regio- and Stereoselective Oxidation of Organic Substrates
Coordination Chemistry Reviews. 2019.
V.384. P.126-139. DOI: 10.1016/j.ccr.2019.01.010
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12
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Lyakin O.Y.
, Bryliakov K.P.
, Talsi E.P.
The Nature of High-Valent Oxometal Intermediates of Iron-Aminopyridine Mediated Oxidations
Глава монографии
Alkane Functionalization.
– Wiley.,
2019.
– C.269-292. – ISBN 9781119378808. DOI: 10.1002/9781119379256.ch14
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13
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Zima A.M.
, Lyakin O.Y.
, Bryliakov K.P.
, Talsi E.P.
High‐Spin and Low‐Spin Perferryl Intermediates in Fe(PDP)‐Catalyzed Epoxidations
ChemCatChem. 2019.
V.11. N21. P.5345-5352. DOI: 10.1002/cctc.201900842
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14
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Lyakin O.Y.
, Talsi E.P.
Direct C–H Oxidation of Aromatic Substrates in the Presence of Biomimetic Iron Complexes
Глава монографии
Frontiers of Green Catalytic Selective Oxidations.
– Springer.,
2019.
– C.253-276. – ISBN 9789813297500. DOI: 10.1007/978-981-32-9751-7_10
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15
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Tkachenko N.V.
, Lyakin O.Y.
, Samsonenko D.G.
, Talsi E.P.
, Bryliakov K.P.
Highly Efficient Asymmetric Aerobic Oxidative Coupling of 2-Naphthols in the Presence of Bioinspired Iron Aminopyridine Complexes
Catalysis Communications. 2018.
V.104. P.112-117. DOI: 10.1016/j.catcom.2017.10.025
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16
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Zima A.M.
, Lyakin O.Y.
, Bryliakov K.P.
, Talsi E.P.
Direct Reactivity Studies of Non-Heme Iron-Oxo Intermediates Toward Alkane Oxidation
Catalysis Communications. 2018.
V.108. P.77-81. DOI: 10.1016/j.catcom.2018.01.034
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17
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Lyakin O.Y.
, Zima A.M.
, Tkachenko N.V.
, Bryliakov K.P.
, Talsi E.P.
Direct Evaluation of the Reactivity of Nonheme Iron(V)–Oxo Intermediates toward Arenes
ACS Catalysis. 2018.
V.8. P.5255-5260. DOI: 10.1021/acscatal.8b00661
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18
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Tkachenko N.V.
, Ottenbacher R.V.
, Lyakin O.Y.
, Zima A.M.
, Samsonenko D.G.
, Talsi E.P.
, Bryliakov K.P.
Highly Efficient Aromatic C−H Oxidation with H2O2 in the Presence of Iron Complexes of the PDP Family
ChemCatChem. 2018.
V.10. N18. P.4052-4057. DOI: 10.1002/cctc.201800832
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19
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Tkachenko N.V.
, Lyakin O.Y.
, Zima A.M.
, Talsi E.P.
, Bryliakov K.P.
Effect of Different Carboxylic Acids on the Aromatic Hydroxylation with H2O2 in the Presence of an Iron Aminopyridine Complex
Journal of Organometallic Chemistry. 2018.
V.871. P.130-134. DOI: 10.1016/j.jorganchem.2018.07.016
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20
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Zima A.M.
, Lyakin O.Y.
, Bryliakov K.P.
, Talsi E.P.
On the Nature of the Active Intermediates in Iron-Catalyzed Oxidation of Cycloalkanes with Hydrogen Peroxide and Peracids
Molecular Catalysis. 2018.
V.455. P.6-13. DOI: 10.1016/j.mcat.2018.05.024
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