High temperature chemistry of oxide systems and materials

Scientific area (concept)

• Thermodynamic properties and vaporization processes of oxide systems and materials (glasses, ceramics and coatings) at high temperatures;
• Modeling of thermodynamic properties of oxide systems: consideration of correlations with structure in obtaining of materials with the required properties;
• Prediction of physicochemical properties of advanced materials at high temperatures.

Projects

• Project № 20-33-90175, Russian Fund for Basic Research: «Thermodynamic properties of quatenary systems based on hafnium and rare earth oxides: calculation and experiment”, 2020–2022;
• International project TCOFF (Thermodynamic Characterisation of Fuel Debris and Fission Products Based on Scenario Analysis of Severe Accident Progression at the Fukushima Daiichi Nuclear Power Station) Nuclear Energy Agency of Organization for Economic Cooperation and Development, 2018–2020;
• Contract № 500067753, Organisation for Economic Co-operation and Development (OECD), Nuclear Energy Agency: “Vaporization and thermodynamics of Cs-bearing compounds in the Cs-Si-O, Cs-B-O, Cs-Mo-O, Cs-Cr-O, Cs-Fe-O systems studied by high temperature mass spectrometric method”, 2018–2019;
• Project № 19-03-00721, Russian Fund for Basic Research: «Physical and chemical properties of ceramics based on ternary systems containing hafnia advanced for the development of the heat reflecting coatings of new generation», 2019–2021;
• Project № 16-03-00940, Russian Fund for Basic Research: «High temperature study of ceramics based on hafnium and rare-earth oxides: thermodynamics and structure», 2016–2018;
• Project № 13-03-00718, Russian Fund for Basic Research: «High-temperature study of physicochemical properties and structure of silicate glasses and melts containing bismuth oxide (III)», 2013–2015.

Publications

1. Shilov, A. L., Stolyarova, V. L., Lopatin, S. I., Vorozhtcov, V. A., Kirillova S. A. High‐temperature Mass Spectrometric Study and Modeling of the Thermodynamic Properties of the TiO₂‐SiO₂‐ZrO₂ System. // Chemistry Select. 2024. V. 9. N 3. P. e202302782. DOI: 10.1002/slct.202302782
2. Jacobson, N., Colle, J-Y., Stolyarova V.L., Markus, T. & Nuta, I. Knudsen Effusion Mass Spectrometry: Current and Future Approaches.// Rapid Communications in Mass Spectrometry. 2024. V. 38. N 14. P. e9744.
3. Folomeikin Yu.I., Stolyarova V.L., Lopatin S.I. Mass Spectrometric Study of the Interaction of Y₂O₃ with Carbon at High Temperatures. // Russ. J. Phys. Chem. 2024. V. 98. N 9. P. 1957-1962.
4. Lopatin S.I., Selyutin A.A., Stolyarova V.L. Mass spectrometric study of Evaporation of Hydroxyapatite at High Temperatures up to 2200 K. // Russ. J. Phys. Chem. 2024. V. 98. N 9. P. 1963-1967.
5. Perevislov S.N., Arlashkin I.E., Stolyarova V.L. Synthesis and sintering of MAX phases in the Zr-Al-C system. // J. Amer. Ceram. Soc. 2024. V. 107. N 1. P. 488-500. https://doi.org/10.1111/jace.19419
6. Stolyarova V.L., Shilov A.L., Vorozhtcov V.A. Development of the high-temperature Knudsen effusion mass spectrometry in the Nordic countries. // Steel Research International. 2024. https://doi.org/10.1002/srin.202400427
7. Vorozhtcov, V. A., Pavelina, M. E., Stolyarova, V. L., Fedorova, A. V., Sinelshchikova, O. Y. & Almjashev, V. I. Liquidus temperatures in the La₂O₃-SrO-TiO₂-ZrO₂-Fe₂O₃ system: calculation and experiment. // Ceramics International. 2024. DOI: 10.1016/j.ceramint.2024.10.463
8. Fedorova A.V., Stolyarov V.A., Pavelina M.E., Kolonitskii P.D., Kirichenko S.O., Timchuk A.V., Stolyarova V.L. Ceramics of the Cs₂O–Al₂O₃ System prepared by Solid-Phase Technology and the Glycine–Nitrate Combustion Process. // Russian Journal of Inorganic Chemistry. 2023. V. 68. N 7. P. 883–894. DOI: 10.31857/S0044457X23600275
9. Stolyarova V.L., Shilov A.L., Sokolova T.V., Kurata M., Costa D. Thermodynamics and vaporization of Cs-, Sr-, Ba-containing oxide systems valid for nuclear safety problems. // Russ. Chem. Rev. 2023. V. 92. N 5. P. RCR5059 DOI: 10.57634/RCR5059
10. Arlashkin I.E., Perevislov S.N., Stolyarova V.L. Synthesis and Study of Dense Materials in the Zr-Al-C System. // Russian Journal of General Chemistry. 2023. V. 93. N 4. P. 881–885. DOI:10.1134/S107036322304014X
11. Vorozhtcov V.A., Stolyarova V.L., Kirillova S.A., Lopatin S.I., Shilov A.L. Thermodynamic properties of quaternary systems based on hafnia: a high-temperature mass spectrometric study and modeling. // Russian Chemical Bulletin. 2023. V. 72. N 1. P. 148-157. DOI:10.1007/s11172-023-3719-z
12. Vorozhtcov V.A., Stolyarova V.L., Kirillova S.A., Lopatin S.I. High-Temperature Thermodynamic Properties of Hafnium and Oxide Ceramics. // Russian Journal of Inorganic Chemistry. 2023. V. 68. N 2. P. 172–182. DOI: 10.1134/S003602362260215X.
13. Stolyarova V.L., Lopatin S.I., Vorozhtcov V.A., Fedorova A.V., Selyutin A.A., Shilov A.L. Mass spectrometric study of the Fe₂O₃-TiO₂ system. // High Temperature. 2023. V. 61. N 6. P. 790-800. DOI: 10.1134/S0018151X23060111
14. Vorob'eva V., Zelenaya A., Lutsyk V., Vorozhtcov V., Almjashev V., Sokolova T., Stolyarova V. Modeling of the ZrO₂-SiO₂-Al₂O₃ phase diagram using simulation by the 3D computer model and the NUCLEA database. // Materials Science and Engineering B. 2023. 297, 116790. DOI: 10.1016/j.mseb.2023.116790
15. Perevislov S.N., Arlashkin I.Е., Stolyarova V.L. Synthesis and sintering of MAX phases in the Zr-Al-C system. // Journal of the American Ceramic Society. 2023. V. 107, N 1 P. 488-500. DOI:10.1111/jace.19419
16. Vorob'eva V.P, Zelenaya A.E, Lutsyk V.I, Vorozhtcov V.A, Almjashev V.I, StolyarovaV.L. State diagram of the ZrO₂-SiO₂-Al₂O₃ system with visualization by computer 3D-model and calculation using the NUCLEA database. // Doklady Physical Chemistry. 2023. V. 511, N 1.P. 107–116. DOI: 10.31857/S2686953522600507
17. Stolyarova V.L., Vorozhtcov V.A., Lopatin S.I., Selyutin A.A., Shugurov S.M., Shilov A.L., Stolyarov V.A., Almjashev V.I. Mass spectrometric study and modeling of the thermodynamic properties of SrO-Al₂O₃ melts at high temperatures. // Rapid Communications in Mass Spectrometry. 2023. V. 37, N 5. e9459. DOI: 10.1002/rcm.9459
18. Evstropiev S.K., Stolyarova V.L., Knyazyan N.B., Manukyan G.G., Shashkin A.V. Structural design of Eu²⁺-containing glasses and glass-ceramics based on the BaO-ZrO₂-SiO₂-MgF₂ system for LED application. // Doklady Chemistry. 2023, V. 512. Part 2, P. 304-308. DOI:10.1134/S0012500823700180
19. Kablov E.N., Folomeikin Yu.I., Stolyarova V.L., Lopatin S.I. Reactions of niobium silicide melt with refractory ceramics. // Russ. J. General Chemistry. 2016. V. 86. N 9. P. 2105–2108.
20. Evstropiev, S. K., Yurchenko, D. A., Stolyarova, V. L., Knyazyan, N. B., Manukyan, G. G. & Shashkin, A. V., Some features of the surface modification of MgO–Al ₂O ₃–TiO ₂–SiO ₂ glass and glass ceramics by Ag diffusion // Ceramics International. 2022, V. 48, N 17, P. 24517-24522.
21. Stolyarova, V. L., Vorozhtcov, V. A., Shemchuk, D. V., Shilov, A. L., Lopatin, S. I., Almjashev, V. I., Shuvaeva, E. B. & Kirillova, S. A. High-temperature massspectrometric study of thermodynamic properties in the TiO₂-Al₂O₃-SiO₂ system and modeling // Rapid Communications in Mass Spectrometry. 2022. V. 36, N 19. P. e9359.
22. Kablov, E. N., Shilov, A. L., Stolyarova, V. L., Vorozhtcov, V. A., Karachevtsev, F. N., Lopatin, S. I. & Shugurov, S. M., Mass spectrometric study and modeling of the thermodynamic properties in the Gd2O3-ZrO2-HfO2 system at high temperatures // Rapid Communications in Mass Spectrometry. 2022. V. 36. N 13. P. e9306.
23. Kablov, E. N., Shilov, A. L., Stolyarova, V. L., Karachevtsev, F. N., Lopatin, S. I., Shugurov, S. M. & Vorozhtcov, V. A. Thermodynamics and vaporization of ceramics based on the Gd2O3-ZrO2 and Gd2O3-HfO2 systems studied by KEMS // Journal of Alloys and Compounds. 2022. V. 908. P. 164575.
24. Doronin, O. N., Artemenko, N. I., Stekhov, P. A., Marakhovskii, P. S., Stolyarova, V. L. & Vorozhtsov, V. A.Properties of Gd₂O₃–ZrO₂–HfO₂ Ceramics as Promising Thermal Barrier Coatings // Russian Journal of Inorganic Chemistry. 2022. V. 67. N 5. P. 732-739.
25. Kablov, E. N., Stolyarova, V. L., Vorozhtcov, V. A., Lopatin, S. I., Shugurov, S. M., Shilov, A. L. & Karachevtsev, F. N. High-temperature mass spectrometric study of the thermodynamic properties in the Sm₂O₃-ZrO₂-HfO₂ system // Rapid Communications in Mass Spectrometry. 2022. V. 36. N 7. P. e9238.
26. Evstropiev, S. K., Shashkin, A. V., Кnyazyan, N. B., Маnukyan, G. G., Bagramyan, V. V., Timchuk, A. V. & Stolyarova, V. L.Eu-doped BaO-Al₂O₃-SiO₂₋MgF₂ glass and glass ceramics // Journal of Non-Crystalline Solids. 2022. V. 580. P. 121386.