1
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Khudozhitkov A.E.
, Plekhanov M.S.
, Arzumanov S.S.
, Kolokolov D.I.
, Stepanov A.G.
Mobility and Separation of Linear and Branched С5 Alkanes in UiO-66 (Zr) Probed by 2H NMR and MD Simulations
PCCP: Physical Chemistry Chemical Physics. 2023.
V.25. P.27516-27523. DOI: 10.1039/d3cp02601a
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2
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Avramovska M.
, Freude D.
, Haase J.
, Toktarev A.V.
, Arzumanov S.S.
, Gabrienko A.A.
, Stepanov A.G.
Quantitative 67Zn, 27Al and 1H MAS NMR Spectroscopy for the Characterization of Zn Species in ZSM-5 Catalysts
PCCP: Physical Chemistry Chemical Physics. 2023.
V.25. N41. P.28043-28051. DOI: 10.1039/d3cp03136e
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3
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Arzumanov S.S.
, Gabrienko A.A.
, Freude D.
, Haase J.
, Stepanov A.G.
Tuning the Mechanism of H/D Exchange for Isobutane on H‐BEA by Loading Zn Species in Zeolite
Chemistry - A European Journal. 2023.
V.29. N5. e202202962
:1-9. DOI: 10.1002/chem.202202962
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4
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Arzumanov S.S.
, Gabrienko A.A.
, Toktarev A.V.
, Freude D.
, Haase J.
, Stepanov A.G.
H/D Exchange of n-Butane on In-Modified Zeolite BEA Investigated by 1H Magic-Angle Spinning Nuclear Magnetic Resonance In Situ
The Journal of Physical Chemistry C. 2023.
V.127. N43. P.21122–21131. DOI: 10.1021/acs.jpcc.3c05483
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5
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Gabrienko A.A.
, Arzumanov S.S.
, Lashchinskaya Z.N.
, Toktarev A.V.
, Prosvirin I.P.
, Stepanov A.G.
n-Butane Transformation on In-Modified ZSM-5 Zeolite: A Case Study by 13C MAS NMR and FTIR Spectroscopy
The Journal of Physical Chemistry C. 2023.
V.127. N35. P.17377–17388. DOI: 10.1021/acs.jpcc.3c04508
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6
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Agliullin M.R.
, Arzumanov S.S.
, Gerasimov E.Y.
, Grigorieva N.G.
, Bikbaeva V.R.
, Serebrennikov D.V.
, Khalilov L.M.
, Kutepov B.I.
Crystal Engineering of SAPO-11 Sieves by Forming Intermediate Phases
CrystEngComm. 2023.
V.25. N20. P.3096-3107. DOI: 10.1039/d3ce00278k
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7
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Khudozhitkov A.E.
, Arzumanov S.S.
, Kolokolov D.I.
, Stepanov A.G.
Butane Isomers Mobility and Framework Dynamics in UiO-66 (Zr) MOF: Impact of the Hydroxyl Groups in Zirconia Cluster
Solid State Nuclear Magnetic Resonance. 2022.
V.118. 101784
:1-7. DOI: 10.1016/j.ssnmr.2022.101784
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8
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Gabrienko A.A.
, Arzumanov S.S.
, Toktarev A.V.
, Prosvirin I.P.
, Freude D.
, Haase J.
, Stepanov A.G.
Propane Transformation on In-Modified Zeolite BEA
The Journal of Physical Chemistry C. 2022.
V.126. N38. P.16204-16214. DOI: 10.1021/acs.jpcc.2c05888
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РИНЦ
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9
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Arzumanov S.S.
, Gabrienko A.A.
, Toktarev A.V.
, Freude D.
, Haase J.
, Stepanov A.G.
H/D Exchange of Propane on Indium-Modified Zeolite BEA Investigated by 1H MAS NMR In Situ
The Journal of Physical Chemistry C. 2022.
V.126. N46. P.19766–19775. DOI: 10.1021/acs.jpcc.2c06618
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10
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Gabrienko A.A.
, Lashchinskaya Z.N.
, Arzumanov S.S.
, Toktarev A.V.
, Freude D.
, Haase J.
, Stepanov A.G.
Isobutane Transformation to Aromatics on Zn‐Modified Zeolites. The Intermediates and the Effect of Zn2+ and ZnO Species on the Reaction Occurrence Revealed with 13C MAS NMR
ChemPhysChem. 2022.
V.23. N1. e2021005
:1-9. DOI: 10.1002/cphc.202100587
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11
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Gabrienko A.A.
, Lashchinskaya Z.N.
, Arzumanov S.S.
, Toktarev A.V.
, Freude D.
, Haase J.
, Stepanov A.G.
Isobutene Transformation to Aromatics on Zn-Modified Zeolite: Particular Effects of Zn2+ and ZnO Species on the Reaction Occurrence Revealed with Solid-State NMR and FTIR Spectroscopy
The Journal of Physical Chemistry C. 2021.
V.125. N28. P.15343–15353. DOI: 10.1021/acs.jpcc.1c04249
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12
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Khudozhitkov A.E.
, Arzumanov S.S.
, Kolokolov D.I.
, Stepanov A.G.
UiO-66 (Zr) MOF as a Promising Material for Butane Isomers Separation: Evidence Based on the Analysis of the Adsorbed Alkanes Mobility by 2H NMR and Molecular Dynamics Simulation
The Journal of Physical Chemistry C. 2021.
V.125. N24. P.13391–13400. DOI: 10.1021/acs.jpcc.1c02849
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13
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Khudozhitkov A.E.
, Arzumanov S.S.
, Toktarev A.V.
, Cherepanova S.V.
, Gabrienko A.A.
, Kolokolov D.I.
, Stepanov A.G.
Dissecting the Effects of Water Guest Adsorption and Framework Breathing on the AlO4(OH)2 Centres of Metal–Organic Framework MIL-53 (Al) by Solid State NMR and Structural Analysis
PCCP: Physical Chemistry Chemical Physics. 2021.
V.23. N34. P.18925-18929. DOI: 10.1039/d1cp03060d
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РИНЦ
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14
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Gabrienko A.A.
, Lashchinskaya Z.N.
, Arzumanov S.S.
, Toktarev A.V.
, Freude D.
, Haase J.
, Stepanov A.G.
1H MAS NMR In Situ Reaction Monitoring Reveals the Particular Effects of Zn2+ and ZnO Species on the Kinetics of Isobutane Transformation on Zn-Modified Zeolites
The Journal of Physical Chemistry C. 2021.
V.125. N39. P.21471–21480. DOI: 10.1021/acs.jpcc.1c07080
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15
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Stepanov A.G.
, Arzumanov S.S.
, Gabrienko A.A.
Unraveling the Mechanism of Methane Activation on Zn‐Modified Zeolites by Solid‐State NMR
Chemistry-Methods. 2021.
V.1. N5. P.224-230. DOI: 10.1002/cmtd.202100021
РИНЦ
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16
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Khudozhitkov A.E.
, Zhao H.
, Ghoufi A.
, Arzumanov S.S.
, Kolokolov D.I.
, Maurin G.
, Stepanov A.G.
Molecular Insight into the Slow Dynamics of C4 Hydrocarbons in the Zeolitic–Imidazole Framework (ZIF-8)
ACS Applied Materials and Interfaces. 2021.
V.13. N28. P.33685–33692. DOI: 10.1021/acsami.1c08529
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17
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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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18
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Khudozhitkov A.E.
, Arzumanov S.S.
, Kolokolov D.I.
, Stepanov A.G.
Dynamics of Xylene Isomers in MIL-53 (Al) MOF Probed by Solid State 2H NMR
Microporous and Mesoporous Materials. 2020.
V.300. 110155
:1-10. DOI: 10.1016/j.micromeso.2020.110155
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19
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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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20
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Gabrienko A.A.
, Danilova I.G.
, Arzumanov S.S.
, Freude D.
, Stepanov A.G.
Does the Zn2+ Species Introduced into H-ZSM-5 Zeolite Affect the Strength of Brønsted Acid Sites?
ChemCatChem. 2020.
V.12. N2. P.478-487. DOI: 10.1002/cctc.201901637
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