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1
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Gabrienko A.A.
, Kolganov A.A.
, Yashnik S.A.
, Kriventsov V.V.
, Stepanov A.G.
Methane to Methanol Transformation on Cu2+/H‐ZSM‐5 Zeolite. Characterization of Copper State and Mechanism of the Reaction
Chemistry - A European Journal. 2025.
V.31. N10. e202403167
:1-14. DOI: 10.1002/chem.202403167
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2
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Kolganov A.A.
, Gabrienko A.A.
, Stepanov A.G.
Reaction of Methane with Benzene and CO on Cu-Modified ZSM-5 Zeolite Investigated by 13C MAS NMR Spectroscopy
Chemical Physics Letters. 2023.
V.810. 140188
:1-6. DOI: 10.1016/j.cplett.2022.140188
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3
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Kolganov A.A.
, Gabrienko A.A.
, Chernyshov I.Y.
, Stepanov A.G.
, Pidko E.A.
Property–Activity Relations of Multifunctional Reactive Ensembles in Cation-Exchanged Zeolites: A Case Study of Methane Activation on Zn2+-Modified Zeolite BEA
PCCP: Physical Chemistry Chemical Physics. 2022.
V.24. N11. P.6492-6504. DOI: 10.1039/d1cp05854a
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4
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Lashchinskaya Z.N.
, Gabrienko A.A.
, Kolganov A.A.
, Pidko E.A.
, Stepanov A.G.
Selective Dimerization of Ethene to 2-Butene on Zn2+-Modified ZSM-5 Zeolite
The Journal of Physical Chemistry C. 2022.
V.126. N15. P.6570–6577. DOI: 10.1021/acs.jpcc.2c01101
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5
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Kolganov A.A.
, Gabrienko A.A.
, Stepanov A.G.
The DFT Approach to Predict 13C NMR Chemical Shifts of Hydrocarbon Species Adsorbed on Zn-Modified Zeolites
PCCP: Physical Chemistry Chemical Physics. 2022.
V.24. P.22241-22249. DOI: 10.1039/d2cp02468c
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6
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Gabrienko A.A.
, Kolganov A.A.
, Arzumanov S.S.
, Yashnik S.A.
, Kriventsov V.V.
, Freude D.
, Stepanov A.G.
Effect of Copper State in Cu/H-ZSM-5 on Methane Activation by Brønsted Acid Sites, Studied by 1H MAS NMR In Situ Monitoring the H/D Hydrogen Exchange of the Alkane with Brønsted Acid Sites
The Journal of Physical Chemistry C. 2021.
V.125. N3. P.2182–2193. DOI: 10.1021/acs.jpcc.0c10261
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7
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Gabrienko A.A.
, Yashnik S.A.
, Kolganov A.A.
, Sheveleva A.M.
, Arzumanov S.S.
, Fedin M.V.
, Tuna F.
, Stepanov A.G.
Methane Activation on H-ZSM-5 Zeolite with Low Copper Loading. The Nature of Active Sites and Intermediates Identified with the Combination of Spectroscopic Methods
Inorganic Chemistry. 2020.
V.59. N3. P.2037-2050. DOI: 10.1021/acs.inorgchem.9b03462
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8
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Kolganov A.A.
, Gabrienko A.A.
, Yashnik S.A.
, Pidko E.A.
, Stepanov A.G.
Nature of the Surface Intermediates Formed from Methane on Cu-ZSM-5 Zeolite: A Combined Solid-State Nuclear Magnetic Resonance and Density Functional Theory Study
The Journal of Physical Chemistry C. 2020.
V.124. N11. P.6242-6252. DOI: 10.1021/acs.jpcc.0c00311
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9
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Kolganov A.A.
, Gabrienko A.A.
, Chernyshov I.Y.
, Stepanov A.G.
, Pidko E.A.
The Accuracy Challenge of the DFT-Based Molecular Assignment of 13C MAS NMR Characterization of Surface Intermediates in Zeolite Catalysis
PCCP: Physical Chemistry Chemical Physics. 2020.
V.22. N41. P.24004-24013. DOI: 10.1039/d0cp04439c
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10
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Lashchinskaya Z.N.
, Gabrienko A.A.
, Arzumanov S.S.
, Kolganov A.A.
, Toktarev A.V.
, Freude D.
, Haase J.
, Stepanov A.G.
Which Species, Zn2+ Cations or ZnO Clusters, Are More Efficient for Olefin Aromatization? 13C Solid-State NMR Investigation of n-But-1-ene Transformation on Zn-Modified Zeolite
ACS Catalysis. 2020.
V.10. N23. P.14224-14233. DOI: 10.1021/acscatal.0c03647
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