1
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Timofeeva M.N.
, Panchenko V.N.
, Jhung S.H.
Insights into the Structure–Property–Activity Relationship of Zeolitic Imidazolate Frameworks for Acid–Base Catalysis
International Journal of Molecular Sciences. 2023.
V.25. N5. 4370
:1-20. DOI: 10.3390/ijms24054370
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2
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Тимофеева М.Н.
, Лукоянов И.А.
, Панченко В.Н.
, Джунг С.Х.
Влияние размерных эффектов на каталитические свойства цеолитоподобных имидазолятных каркасов
Известия Академии наук. Серия химическая. 2022.
№4. С.599-612.
РИНЦ
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3
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Timofeeva M.N.
, Lukoyanov I.A.
, Panchenko V.N.
, Jhung S.H.
Particle Size Effect on the Catalytic Properties of Zeolitic Imidazolate Frameworks
Russian Chemical Bulletin. 2022.
V.71. N4. P.599-612. DOI: 10.1007/s11172-022-3458-6
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4
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Timofeeva M.N.
, Lukoyanov I.A.
, Panchenko V.N.
, Shefer K.I.
, Mel'gunov M.S.
, Bhadra B.N.
, Jhung S.H.
Tuning the Catalytic Properties for Cycloaddition of CO2 to Propylene Oxide on Zeolitic-Imidazolate Frameworks through Variation of Structure and Chemical Composition
Molecular Catalysis. 2022.
V.529. 112530
:1-10. DOI: 10.1016/j.mcat.2022.112530
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РИНЦ
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5
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Лукоянов И.А.
, Громов Н.В.
, Медведева Т.Б.
, Панченко В.Н.
, Тимофеева М.Н.
, Пармон В.Н.
, Jhung S.H.
Синтез эритрулозы из дигидроксиацетона и формальдегида в присутствии цеолитоподобных цинк-имидазолятных каркасов
Катализ в промышленности. 2021.
Т.21. №3. С.184-191. DOI: 10.18412/1816-0387-2021-1-3-184-191
РИНЦ
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6
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Timofeeva M.N.
, Panchenko V.N.
, Lukoyanov I.A.
, Jhung S.H.
Zirconium-Containing Metal Organic Frameworks as Solid Acid Catalysts for the N-Formylation of Aniline with Formic Acid
Reaction Kinetics, Mechanisms and Catalysis. 2021.
V.133. N1. P.355–369. DOI: 10.1007/s11144-021-01982-1
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РИНЦ
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7
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Lukoyanov I.A.
, Gromov N.V.
, Medvedeva T.B.
, Panchenko V.N.
, Timofeeva M.N.
, Parmon V.N.
, Jhung S.H.
Synthesis of Erythrulose from Dihydroxyacetone and Formaldehyde Using Zinc Zeolitic Imidazolate Frameworks
Catalysis in Industry. 2021.
V.13. N4. P.395–401. DOI: 10.1134/S2070050421040061
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РИНЦ
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8
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Timofeeva M.N.
, Lukoyanov I.A.
, Panchenko V.N.
, Bhadra B.N.
, Gerasimov E.Y.
, Jhung S.H.
Effect of MAF-6 Crystal Size on Its Physicochemical and Catalytic Properties in the Cycloaddition of CO2 to Propylene Oxide
Catalysts. 2021.
V.11. N9. 1061
:1-17. DOI: 10.3390/catal11091061
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РИНЦ
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9
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Timofeeva M.N.
, Lykoyanov I.A.
, Panchenko V.N.
, Shefer K.I.
, Bhadra B.N.
, Jhung S.H.
Zeolitic Imidazolate Frameworks ZIF-8 and MAF-5 as Highly Efficient Heterogeneous Catalysts for Synthesis of 1-Methoxy-2-propanol from Methanol and Propylene Oxide
Industrial and Engineering Chemistry Research. 2019.
V.58. N25. P.10750-10758. DOI: 10.1021/acs.iecr.9b00655
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РИНЦ
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10
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Timofeeva M.N.
, Prikhod’ko S.A.
, Makarova K.N.
, Malyshev M.E.
, Panchenko V.N.
, Ayupov A.B.
, Jhung S.H.
Iron-Containing Materials as Catalysts for the Synthesis of 1,5-Benzodiazepine from 1,2-Phenylenediamine and Acetone
Reaction Kinetics, Mechanisms and Catalysis. 2017.
V.121. N2. P.689-699. DOI: 10.1007/s11144-017-1190-2
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РИНЦ
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11
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Timofeeva M.N.
, Panchenko V.N.
, Prikhodʹko S.A.
, Ayupov A.B.
, Larichev Y.V.
, Khan N.A.
, Jhung S.H.
Metal-Organic Frameworks as Efficient Catalytic Systems for the Synthesis of 1,5-Benzodiazepines from 1,2-Phenylenediamine and Ketones
Journal of Catalysis. 2017.
V.354. P.128-137. DOI: 10.1016/j.jcat.2017.08.009
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РИНЦ
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12
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Timofeeva M.N.
, Panchenko V.N.
, Khan N.A.
, Hasan Z.
, Prosvirin I.P.
, Tsybulya S.V.
, Jhung S.H.
Isostructural Metal-Carboxylates MIL-100(M) and MIL-53(M) (M: V, Al, Fe and Cr) as Catalysts for Condensation of Glycerol with Acetone
Applied Catalysis A: General. 2017.
V.529. P.167-174. DOI: 10.1016/j.apcata.2016.11.006
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РИНЦ
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13
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Panchenko V.N.
, Timofeeva M.N.
, Jhung S.H.
Acid-Base Properties and Catalytic Activity of Metal-Organic Frameworks: A View from Spectroscopic and Semiempirical Methods
Cheminform. 2016.
V.47. N40. 263
:1-1. DOI: 10.1002/chin.201640263
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14
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Kozlova E.A.
, Panchenko V.N.
, Hasan Z.
, Khan N.A.
, Timofeeva M.N.
, Jhung S.H.
Photoreactivity of Metal-Organic Frameworks in the Decolorization of Methylene Blue in Aqueous Solution
Catalysis Today. 2016.
V.266. P.136-143. DOI: 10.1016/j.cattod.2015.07.026
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РИНЦ
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15
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Panchenko V.N.
, Timofeeva M.N.
, Jhung S.H.
Acid-Base Properties and Catalytic Activity of Metal-Organic Frameworks: A View from Spectroscopic and Semiempirical Methods
Catalysis Reviews: Science and Engineering. 2016.
V.58. N2. P.209-307. DOI: 10.1080/01614940.2016.1128193
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РИНЦ
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16
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Панченко В.Н.
, Jhung S.H.
, Тимофеева М.Н.
Использование спектральных методов для прогнозирования каталитических свойств металлорганических координационных полимеров
Известия Академии наук. Серия химическая. 2015.
№8. С.1772-1783.
РИНЦ
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17
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Panchenko V.N.
, Jhung S.H.
, Timofeeva M.N.
Spectroscopic Methods as Instruments for the Prediction of Catalytic Behavior of Metal-Organic Frameworks
Russian Chemical Bulletin. 2015.
V.64. N8. P.1772-1783. DOI: 10.1007/s11172-015-1071-7
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18
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Timofeeva M.N.
, Panchenko V.N.
, Abel A.A.
, Khan N.A.
, Ahmed I.
, Ayupov A.B.
, Volcho K.P.
, Jhung S.H.
Rearrangement of alfa-Pinene Oxide to Campholenic Aldehyde over the Trimesate Metal-Organic Frameworks MIL-100, MIL-110 and MIL-96
Journal of Catalysis. 2014.
V.311. P.114-120. DOI: 10.1016/j.jcat.2013.11.006
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РИНЦ
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19
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Timofeeva M.N.
, Panchenko V.N.
, Hasan Z.
, Khan N.A.
, Melʹgunov M.S.
, Abel A.A.
, Matrosova M.M.
, Volcho K.P.
, Jhung S.H.
Effect of Iron Content on Selectivity in Isomerization of α-Pinene Oxide to Campholenic Aldehyde over Fe-MMM-2 and Fe-VSB-5
Applied Catalysis A: General. 2014.
V.469. P.427-433. DOI: 10.1016/j.apcata.2013.10.016
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20
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Timofeeva M.N.
, Panchenko V.N.
, Jun J.W.
, Hasan Z.
, Matrosova M.M.
, Jhung S.H.
Effects of Linker Substitution on Catalytic Properties of Porous Zirconium Terephthalate UiO-66 in Acetalization of Benzyldehyde with Methanol
Applied Catalysis A: General. 2014.
V.471. P.91-97. DOI: 10.1016/j.apcata.2013.11.039
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