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  1. The synthesis of methane and heavier hydrocarbons in the system graphite-ironserpentine at 2 and 4 GPa and 1200°C

    Tomilenko, A. A., Chepurov, A. I., Sonin, V. M., Bul'bak, T. A., Zhimulev, E. I., Chepurov, A. A., Timina, T. Y. & Pokhilenko, N. P., 2015, In: High Temperatures - High Pressures. 44, 6, p. 451-465 15 p.

    Research output: Contribution to journalArticlepeer-review

  2. The Synthesis of Monodisperse MFI Nanozeolites: Controlling the Crystallization Process

    Sashkina, K. A., Shestakova, D. O. & Parkhomchuk, E. V., 1 Aug 2020, In: Petroleum Chemistry. 60, 8, p. 881-889 9 p.

    Research output: Contribution to journalArticlepeer-review

  3. The synthesis of new functionalized 1,3,5-triazine-based stable bi- and trinitroxides of the 2,5-dihydroimidazole series

    Zaytseva, E. V., Gatilov, Y. V. & Mazhukin, D. G., 4 Aug 2018, In: Arkivoc. 2018, 5, p. 359-374 16 p.

    Research output: Contribution to journalArticlepeer-review

  4. The synthesis of Ru- and Pd- containing nanoparticles stabilized by the hypercrosslinked polystyrene for the selective hydrogenation of the furfural to the furfuryl alcohol

    Salnikova, K., Sulman, M., Larichev, Y., Kosivtsov, Y. & Matveeva, V., 1 Jan 2019, In: International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM. 19, 4.1, p. 547-552 6 p.

    Research output: Contribution to journalConference articlepeer-review

  5. The synthesis of Ru/CNF colloidal catalysts: Comparison of ex-situ and in-situ methods

    Demidova, Y. S., Simakova, I. L., Schubert, T. & Yu Murzin, D., 2017, In: Materials Today: Proceedings. 4, 11, p. 11364-11370 7 p.

    Research output: Contribution to journalArticlepeer-review

  6. The system KCl−CaCO3−MgCO3 at 6 GPa: A link between saline and carbonatitic diamond-forming fluids

    Shatskiy, A., Podborodnikov, I. V., Arefiev, A. V., Bekhtenova, A. & Litasov, K. D., 20 Aug 2022, In: Chemical Geology. 604, 120931.

    Research output: Contribution to journalArticlepeer-review

  7. The system K2CO3–CaCO3 at 3 GPa: link between phase relations and variety of K–Ca double carbonates at ≤ 0.1 and 6 GPa

    Arefiev, A. V., Shatskiy, A., Podborodnikov, I. V., Rashchenko, S. V., Chanyshev, A. D. & Litasov, K. D., 4 Mar 2019, In: Physics and Chemistry of Minerals. 46, 3, p. 229-244 16 p.

    Research output: Contribution to journalArticlepeer-review

  8. The system K2Co3–CaCo3–MgCo3 at 3 GPA: Implications for carbonatite melt compositions in the shallow continental lithosphere

    Arefiev, A. V., Shatskiy, A., Podborodnikov, I. V., Bekhtenova, A. & Litasov, K. D., 1 May 2019, In: Minerals. 9, 5, 20 p., 296.

    Research output: Contribution to journalArticlepeer-review

  9. The system Na2CO3–CaCO3 at 3 GPa

    Podborodnikov, I. V., Shatskiy, A., Arefiev, A. V., Rashchenko, S. V., Chanyshev, A. D. & Litasov, K. D., 1 Sept 2018, In: Physics and Chemistry of Minerals. 45, 8, p. 773-787 15 p.

    Research output: Contribution to journalArticlepeer-review

  10. The system Na2CO3-CaCO3-MgCO3 at 6 GPa and 900-1250°C and its relation to the partial melting of carbonated mantle

    Shatskiy, A., Litasov, K. D., Sharygin, I. S., Egonin, I. A., Mironov, A. M., Palyanov, Y. N. & Ohtani, E., 2 Jan 2016, In: High Pressure Research. 36, 1, p. 23-41 19 p.

    Research output: Contribution to journalArticlepeer-review

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