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  1. Boosting hydrogen production from formic acid over Pd catalysts by deposition of N-Containing precursors on the carbon support

    Golub, F. S., Beloshapkin, S., Gusel'Nikov, A. V., Bolotov, V. A., Parmon, V. N. & Bulushev, D. A., 14 Oct 2019, In: Energies. 12, 20, 3885.

    Research output: Contribution to journalArticlepeer-review

  2. Breaking structure sensitivity in CO2 hydrogenation by tuning metal–oxide interfaces in supported cobalt nanoparticles

    Parastaev, A., Muravev, V., Osta, E. H., Kimpel, T. F., Simons, J. F. M., van Hoof, A. J. F., Uslamin, E., Zhang, L., Struijs, J. J. C., Burueva, D. B., Pokochueva, E. V., Kovtunov, K. V., Koptyug, I. V., Villar-Garcia, I. J., Escudero, C., Altantzis, T., Liu, P., Béché, A., Bals, S., Kosinov, N., & 1 othersHensen, E. J. M., Nov 2022, In: Nature Catalysis. 5, 11, p. 1051–1060 10 p.

    Research output: Contribution to journalArticlepeer-review

  3. Broadband multimodal THz waveguides for efficient transfer of high-power radiation in space-confined conditions

    Melnikov, A. R., Samsonenko, A. A., Getmanov, Y. V., Shevchenko, O. A., Shevchenko, D. A., Stepanov, A. A., Fedin, M. V., Yurkin, M. A. & Veber, S. L., Nov 2021, In: Optics and Laser Technology. 143, 107375.

    Research output: Contribution to journalArticlepeer-review

  4. Cadmium(ii) terephthalates based on trinuclear units {Cd3(bdc)3}: control of coordination structure dimensionality and luminescence properties

    Lysova, A. A., Samsonenko, D. G., Dybtsev, D. N. & Fedin, V. P., 1 Sept 2017, In: Russian Chemical Bulletin. 66, 9, p. 1580-1588 9 p.

    Research output: Contribution to journalArticlepeer-review

  5. Carbon supported size-controlled ru catalysts for selective levulinic acid hydrogenation into γ-valerolactone

    Simakova, I. L., Demidova, Y. S., Simonov, M. N., Niphadkar, P. S., Bokade, V. V., Devi, N., Dhepe, P. L. & Murzin, D. Y., 2020, In: Journal of Siberian Federal University: Chemistry. 13, 1, p. 5-16 12 p., 1.

    Research output: Contribution to journalArticlepeer-review

  6. Catalysts and Catalytic Processes for the Production of Hydrogen-Rich Gas for Fuel Cell Feeding

    Бадмаев, С. Д., Беляев, В. Д., Конищева, М. В., Куликов, А. В., Печенкин, А. А., Потемкин, Д. И., Рогожников, В. Н., Снытников, П. В. & Собянин, В. А., 2019, In: Chemical Problems. 17, 2, p. 193-204 12 p.

    Research output: Contribution to journalArticlepeer-review

  7. Catalysts for ethanol dry reforming based on high-entropy perovskites

    Eremeev, N. F., Hanna, S. A., Sadovskaya, E. M., Leonova, A. A., Bulavchenko, O. A., Ishchenko, A. V., Prosvirin, I. P., Sadykov, V. A. & Bespalko, Y. N., May 2025, In: Journal of Catalysis. 445, 116028.

    Research output: Contribution to journalArticlepeer-review

  8. Catalytic Aspects in the Synthesis of a Promising Energetic Material

    Simakova, I. L. & Parmon, V. N., 2017, Springer Aerospace Technology. DeLuca, LT., Shimada, T., Sinditskii, VP. & Calabro, M. (eds.). Springer, p. 697-724 28 p. (Springer Aerospace Technology).

    Research output: Chapter in Book/Report/Conference proceedingChapterResearchpeer-review

  9. Catalytic Asymmetric C–H Oxidation with H2O2 and O2

    Брыляков, К. П., 2 Oct 2019, Frontiers of Green Catalytic Selective Oxidations. Brylyakov, K. P. (ed.). Springer Singapore, p. 277-295 19 p. ( Green Chemistry and Sustainable Technology; Chemistry and Materials Science).

    Research output: Chapter in Book/Report/Conference proceedingChapterResearchpeer-review

  10. Catalytic asymmetric oxidations using molecular oxygen

    Ottenbacher, R. V., Talsi, E. P. & Bryliakov, K. P., 1 Jan 2018, In: Russian Chemical Reviews. 87, 9, p. 821-830 10 p.

    Research output: Contribution to journalArticlepeer-review

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