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Publications in Math-Net.Ru |
Citations |
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2025 |
| 1. |
A. G. Dedov, A. S. Loktev, A. A. Karavaev, M. N. Vagapova, K. A. Cherednichenko, “A new way to produce green <em>p</em>-xylene: rapeseed oil conversion over HMFI/SiC catalytic material”, Mendeleev Commun., 35:3 (2025), 347–350    |
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2024 |
| 2. |
I. V. Zagaynov, A. S. Loktev, A. A. Konovalov, A. A. Klimashin, O. S. Antonova, A. G. Dedov, “NiCo-Gd<sub>0.1</sub>Ti<sub>0.1</sub>Zr<sub>0.1</sub>Ce<sub>0.7</sub>O<sub>2</sub> catalyst for dry reforming and partial oxidation of methane: effect of NiCo applying method on the conversion of methane to synthesis gas”, Mendeleev Commun., 34:4 (2024), 572–575 |
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| 3. |
A. G. Dedov, A. A. Karavaev, A. S. Loktev, M. N. Vagapova, K. A. Cherednichenko, K. I. Maslakov, A. A. Sadovnikov, S. P. Molchanov, “A novel method for a nanosized ZSM-5 (MFI) zeolite synthesis in proton form”, Mendeleev Commun., 34:3 (2024), 433–435 |
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2023 |
| 4. |
A. G. Dedov, A. A. Karavaev, A. S. Loktev, P. V. Zemlianskii, M. N. Vagapova, K. I. Maslakov, K. A. Cherednichenko, S. V. Egazaryants, A. V. Khoroshilov, P. I. Ivanov, “HMFI/SiC – A novel efficient catalyst for green hydrocarbon production <i>via</i> bioisobutanol conversion”, Mendeleev Commun., 33:6 (2023), 832–835 |
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2022 |
| 5. |
I. V. Zagaynov, A. S. Loktev, I. E. Mukhin, A. A. Konovalov, A. G. Dedov, “Effect of the oxidizing capacity of ceria-based support on the conversion of methane to syngas”, Mendeleev Commun., 32:1 (2022), 129–131 |
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2021 |
| 6. |
A. S. Pushkarev, I. V. Pushkareva, M. A. Solovyev, S. A. Grigoriev, Ya. Z. Voloshin, N. V. Chornenka, A. S. Belov, P. Millet, M. Antuch, V. N. Kalinichenko, A. G. Dedov, “Polyaromatic-terminated iron(<sc>ii</sc>) clathrochelates as electrocatalysts for efficient hydrogen production in water electrolysis cells with polymer electrolyte membrane”, Mendeleev Commun., 31:1 (2021), 20–23 |
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2020 |
| 7. |
A. G. Dedov, D. Yu. Marchenko, E. A. Ivanova, R. K. Idiatulov, D. A. Sandzhieva, S. V. Egazaryants, E. S. Lobakova, Kh. S. Dzhabrailova, “New multifunctional biocomposite material for hydrocarbon detection and reclamation on the surface of water areas”, Mendeleev Commun., 30:4 (2020), 527–530 |
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| 8. |
A. G. Dedov, A. A. Karavaev, A. S. Loktev, A. S. Mitinenko, I. E. Mukhin, E. A. Isaeva, E. V. Rogaleva, I. I. Moiseev, “Conversion of ethyl acetate into benzene–toluene–xylene fraction over MFI zeolite-based catalysts”, Mendeleev Commun., 30:4 (2020), 459–461 |
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2019 |
| 9. |
A. G. Dedov, Ya. Z. Voloshin, A. S. Belov, A. S. Loktev, A. S. Bespalov, V. M. Buznik, “New heterogeneous catalytic systems based on highly porous ceramic materials modified with immobilized <i>d</i>-metal cage complexes for H<sub>2</sub> production from CH<sub>4</sub>”, Mendeleev Commun., 29:6 (2019), 669–671 |
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| 10. |
I. V. Zagaynov, A. S. Loktev, I. E. Mukhin, A. A. Konovalov, A. G. Dedov, I. I. Moiseev, “Trimetallic NiCoM catalysts (M=Mn, Fe, Cu) for methane conversion into synthesis gas”, Mendeleev Commun., 29:1 (2019), 22–24 |
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2018 |
| 11. |
A. G. Dedov, A. S. Loktev, A. A. Karavaev, I. I. Moiseev, “A novel direct catalytic production of p-xylene from isobutanol”, Mendeleev Commun., 28:4 (2018), 352–353 |
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2017 |
| 12. |
I. V. Zagaynov, A. S. Loktev, I. E. Mukhin, A. G. Dedov, I. I. Moiseev, “Influence of the Ni/Co ratio in bimetallic NiCo catalysts on methane conversion into synthesis gas”, Mendeleev Commun., 27:5 (2017), 509–511 |
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