1
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Болотов В.А.
, Кибилюк А.Е.
, Пармон В.Н.
, Панченко В.Н.
, Тимофеева М.Н.
Применение СВЧ-излучения для синтеза золькеталя из глицерина и ацетона
Катализ в промышленности. 2024.
Т.24. №1. С.60-68. DOI: 10.18412/1816-0387-2024-1-60-68
РИНЦ
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2
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Gromov N.V.
, Medvedeva T.B.
, Lukoyanov I.A.
, Ogorodnikova O.L.
, Panchenko V.N.
, Parmon V.N.
, Timofeeva M.N.
Hydrolysis-Oxidation of Starch to Formic Acid in the Presence of Vanadium-Containing Molybdophosphoric Heteropoly Acid (H3+xPMo12-xVxO40): Effect of Acidity and Vanadium Content on the Yield of Formic Acid
Renewable Energy. 2024.
V.220. 119534
:1-12. DOI: 10.1016/j.renene.2023.119534
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3
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Shmakov M.M.
, Prikhod’ko S.A.
, Panchenko V.N.
, Timofeeva M.N.
, Bardin V.V.
, Parmon V.N.
, Adonin N.Y.
The Organoboron Compounds: Their Lewis Acidity and Catalytic Activity
Catalysis Reviews: Science and Engineering. 2024.
DOI: 10.1080/01614940.2024.2334462
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Scopus
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4
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Panchenko V.N.
, Babushkin D.E.
, Prikhod’ko S.A.
, Barabanov A.A.
, Zakharov V.A.
Study of the Interaction of Diethyl 2,3-diisobutyl Succinate (DIBS) with Magnesium Dichloride and the Stereoisomeric Configuration of DIBS within Titanium-Magnesium Catalysts of Propylene Polymerization
Applied Catalysis A: General. 2024.
V.680. 119741
:1-7. DOI: 10.1016/j.apcata.2024.119741
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5
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Panchenko V.N.
, Matsko M.A.
, Selishchev D.S.
, Kozlov D.V.
Polymeric Floating Photocatalysts Based on PE/TiO2 Composites for the Removal of Organic Pollutants in Water
Journal of Composites Science. 2023.
V.7. N8. 318
:1-14. DOI: 10.3390/jcs7080318
Scopus
РИНЦ
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6
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Gromov N.V.
, Medvedeva T.B.
, Panchenko V.N.
, Taran O.P.
, Timofeeva M.N.
, Parmon V.N.
One-Pot Hydrolysis-Hydrogenation of Potato Starch to Sorbitol Using Bifunctional Catalyst Ru/Сs3HSiW12O40
Catalysis in Industry. 2023.
V.15. N1. P.87–98. DOI: 10.1134/S207005042301004X
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РИНЦ
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7
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Timofeeva M.N.
, Lukoyanov I.A.
, Kalashnikova G.O.
, Panchenko V.N.
, Shefer К.I.
, Gerasimov E.Y.
, Mel'gunov M.S.
Synthesis of Glycidol via Transesterification Glycerol with Dimethylcarbonate in the Presence of Composites Based on a Layered Titanosilicate AM-4 and ZIF-8
Molecular Catalysis. 2023.
V.539. 113014
:1-11. DOI: 10.1016/j.mcat.2023.113014
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РИНЦ
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8
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Gromov N.V.
, Medvedeva T.B.
, Lukoyanov I.A.
, Panchenko V.N.
, Prikhod’ko S.A.
, Parmon V.N.
, Timofeeva M.N.
Hydrolysis-Oxidation of Cellulose to Formic Acid in the Presence of Micellar Vanadium-Containing Molybdophosphoric Heteropoly Acids
Results in Engineering. 2023.
V.17. 100913
:1-10. DOI: 10.1016/j.rineng.2023.100913
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Scopus
РИНЦ
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9
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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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РИНЦ
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10
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Коваленко О.Н.
, Сименцова И.И.
, Панченко В.Н.
, Тимофеева М.Н.
Влияние структуры и кислотности цеолитов на синтез золькеталя из глицерина и ацетона
Катализ в промышленности. 2023.
Т.23. №3. С.13-22. DOI: 10.18412/1816-0387-2023-3-13-23
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11
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Nashivochnikov A.A.
, Kostyukov A.I.
, Rakhmanova M.I.
, Panchenko V.N.
, Cherepanova S.V.
, Snytnikov V.N.
Particle Size Effect on the Structure, Morphology and Optical Properties of Europium Doped ZrO2 Nanoparticles
Ceramics International. 2023.
V.49. N24 Part A. P.40051-40060. DOI: 10.1016/j.ceramint.2023.09.335
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12
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Kostyukov A.I.
, Panchenko V.N.
, Nashivochnikov A.A.
, Rakhmanova M.I.
, Cherepanova S.V.
, Suprun E.A.
, Antonova O.
High Quantum Yield of Red-Emitting Eu3+ Doped Nanophosphor Based on Monoclinic Y2O3
Ceramics International. 2023.
V.49. N24, Part 15. P.41158-41166. DOI: 10.1016/j.ceramint.2023.01.078
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РИНЦ
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13
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Kovalenko O.N.
, Simentsova I.I.
, Panchenko V.N.
, Timofeeva M.N.
Effect of the Structure and Acidity of Zeolites on the Synthesis of Solketal from Glycerol and Acetone
Catalysis in Industry. 2023.
V.15. N4. P.410-419. DOI: 10.1134/S207005042304013X
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РИНЦ
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14
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Gromov N.V.
, Ogorodnikova O.L.
, Medvedeva T.B.
, Panchenko V.N.
, Yakovleva I.S.
, Isupova L.A.
, Timofeeva M.N.
, Taran O.P.
, Aymonier C.
, Parmon V.N.
Hydrolysis–Dehydration of Cellulose: Efficiency of NbZr Catalysts under Batch and Flow Conditions
Catalysts. 2023.
V.13. N9. 1298
:1-17. DOI: 10.3390/catal13091298
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РИНЦ
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15
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Громов Н.В.
, Медведева Т.Б.
, Панченко В.Н.
, Таран О.П.
, Тимофеева М.Н.
, Пармон В.Н.
Одностадийный процесс гидролиза-восстановления картофельного крахмала в сорбит в присутствии бифункционального катализатора Ru/Cs3HSiW12O40
Катализ в промышленности. 2022.
Т.5. С.70-82. DOI: 10.18412/1816-0387-2022-5-70-82
РИНЦ
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16
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Panchenko V.N.
, Zakharov V.A.
, Matsko M.A.
Study of the Bis(imino)pyridyl Complex of Fe(II)/Nafen and Titanium-Magnesium/Nafen Catalysts for Synthesis of Polyethylene/Nafen Composites by in situ Ethylene Polymerization
Polymer Science Series B. 2022.
V.64. N6. P.791-799. DOI: 10.1134/S1560090422700580
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РИНЦ
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17
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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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18
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Панченко В.Н.
, Захаров В.А.
, Мацько М.А.
Изучение бис(имино)пиридильного комплекса Fe(II) и титан-магниевого катализатора, закрепленных на нафене, для синтеза композитов ПЭ‒нафен методом полимеризации in situ
Высокомолекулярные соединения. Серия Б. 2022.
Т.64. №6. С.393-401. DOI: 10.31857/S2308113922700243
РИНЦ
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19
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Isaeva V.I.
, Timofeeva M.N.
, Lukoyanov I.A.
, Gerasimov E.Y.
, Panchenko V.N.
, Chernyshev V.V.
, Glukhov L.M.
, Kustov L.M.
Novel MOF Catalysts Based on Calix[4]arene for the Synthesis of Propylene Carbonate from Propylene Oxide and CO2
Journal of CO2 Utilization. 2022.
V.66. 102262
:1-10. DOI: 10.1016/j.jcou.2022.102262
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РИНЦ
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20
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Gromov N.V.
, Medvedeva T.B.
, Lukoyanov I.A.
, Panchenko V.N.
, Timofeeva M.N.
, Taran O.P.
, Parmon V.N.
Formic Acid Production via One-Pot Hydrolysis-Oxidation of Starch over Quaternary Ammonium Salts of Vanadium-Containing Keggin-Type Heteropoly Acids
Catalysts. 2022.
V.12. N10. 1252
:1-13. DOI: 10.3390/catal12101252
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РИНЦ
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