Sergey Istomin
- Associate Professor:Faculty of Biology and Biotechnology / Joint Department with RAS Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry
- Sergey Istomin has been at HSE University since 2019.
Education and Degrees
- 1997
Candidate of Sciences* (PhD)
- 1993
Degree in Chemistry
Lomonosov Moscow State University
* Candidate of Sciences
According to the International Standard Classification of Education (ISCED) 2011, Candidate of Sciences belongs to ISCED level 8 - "doctoral or equivalent", together with PhD, DPhil, D.Lit, D.Sc, LL.D, Doctorate or similar. Candidate of Sciences allows its holders to reach the level of the Associate Professor.
According to the International Standard Classification of Education (ISCED) 2011, Candidate of Sciences belongs to ISCED level 8 - "doctoral or equivalent", together with PhD, DPhil, D.Lit, D.Sc, LL.D, Doctorate or similar. Candidate of Sciences allows its holders to reach the level of the Associate Professor.
Courses (2023/2024)
- General and Inorganic Chemistry (Bachelor’s programme; Faculty of Biology and Biotechnology; 1 year, 1, 2 module)Rus
- Past Courses
Courses (2022/2023)
General and Inorganic Chemistry (Bachelor’s programme; Faculty of Biology and Biotechnology; field of study "06.03.01. Биология", field of study "06.03.01. Биология"; 1 year, 1, 2 module)Rus
Courses (2021/2022)
- General and Inorganic Chemistry (Bachelor’s programme; Faculty of Biology and Biotechnology; 1 year, 1, 2 module)Rus
- Ion-conducting Materials and Materials with Mixed Ion-electron Conductivity for High Temperature Fuel Cells (Master’s programme; Faculty of Physics; 1 year, 3, 4 module)Rus
Courses (2020/2021)
General and Inorganic Chemistry (Bachelor’s programme; Faculty of Biology and Biotechnology; 1 year, 1, 2 module)Rus
Courses (2019/2020)
General and Inorganic Chemistry (Bachelor’s programme; Faculty of Biology and Biotechnology; 1 year, 1, 2 module)Rus
20172
- Article Истомин С. Я., Бер А., Лысков Н., Антипов Е. ВЫСОКОТЕМПЕРАТУРНЫЕ СВОЙСТВА НОВЫХ ПЕРОВСКИТОПОДОБНЫХ ОКСИДОВ // Журнал неорганической химии. 2017. Т. 62. № 8. С. 1023-1028. doi
- Book Бредихин С., Голодницкий А., Дрожжин О., Истомин С. Я., Ковалевский В., Филиппов С. Стационарные энергетические установки с топливными элементами: материалы, технологии, рынки. М. : Научно-техническая фирма "Энергопрогресс", 2017.
20184
- Article Mazo G., Lyskov N., Istomin S., Antipov E. Evaluation of La2CoTi0.7Mg0.3O6 as an electrode material for a symmetrical SOFC // Journal of Electroceramics. 2018. Vol. 40. No. 2. P. 162-169. doi
- Article Istomin S., Morozov A., Abdullayev M., Batuk M., Hadermann J., Kazakov S., Sobolev A., Presniakov I., Antipov E. High-temperature properties of (La,Ca)(Fe,Mg,Mo)O3- perovskites as prospective electrode materials for symmetrical SOFC // Journal of Solid State Chemistry. 2018. Vol. 258. P. 1-10. doi
- Article Истомин С. Я., Котова А., Лысков Н., Мазо Г. Н., Антипов Е. Pr5Mo3O16+δ – новый анодный материал для твердооксидных топливных элементов // Журнал неорганической химии. 2018. Т. 63. № 10. С. 1274-1279. doi
- Article Filimonenkov I., Istomin S., Antipov E., Tsirlina G., Savinova E. Rotating ring-disk electrode as a quantitative tool for the investigation of the oxygen evolution reaction // Electrochimica Acta. 2018. Vol. 286. P. 304-312. doi
20195
- Article Bonnefont A., Ryabova A. S., Schott T., Kéranguéven G., Istomin S., Antipov E. V., Savinova E. R. Challenges in the understanding oxygen reduction electrocatalysis on transition metal oxides // Current opinion in Electrochemistry (United States). 2019. Vol. 14. P. 23-31. doi
- Article Shekunova T., Istomin S., Mironov A., Baranchikov A., Yapryntsev A., Galstyan A., Simonenko N., Gippius A., Zhurenko S., Shatalova T., Skogareva L., Ivanov V. Crystallization Pathways of Cerium(IV) Phosphates Under Hydrothermal Conditions: A Search for New Phases with a Tunnel Structure // European Journal of Inorganic Chemistry. 2019. Vol. 2019. No. 27. P. 3242-3248. doi
- Article Tropin E., Ananyev M., Porotnikova N., Khodimchuk A., Saher S., Farlenkov A., Kurumchin E., Shepel D., Antipov E., S. Istomin, Bouwmeester H. Oxygen surface exchange and diffusion in Pr1.75Sr0.25Ni0.75Co0.25O4±δ // Physical Chemistry Chemical Physics. 2019. Vol. 21. P. 4779-4790. doi
- Article Churakov A., Vinokurov A., Znamekov K., Mordvinova N., Gippius A., Zhurenko S., Baenitz M., Istomin S. The first example of group 13 elements triacetate with an infinite chain crystal structure // Polyhedron. 2019. Vol. 160. P. 42-45. doi
- Book Практикум по общей и неорганической химии : учебно-методическое пособие / Сост.: М. А. Захаров, С. Я. Истомин, Г. Н. Мазо, М. Г. Розова; отв. ред.: С. Я. Истомин. Издательский дом НИУ ВШЭ, 2019.
20201
Article Shekunova T., Mironov A., Istomin S., Birichevskaya K., Gippius A., Zhurenko S., Shatalova T., Baranchikov A., Ivanov V. Meet the Cerium(IV) Phosphate Sisters: CeIV(OH)PO4 and CeIV2O(PO4)2 // Chemistry - A European Journal. 2020. Vol. 26. P. 12188-12193. doi
20211
Article Istomin S., Lyskov N., Mazo G., Antipov E. Electrode materials based on complex d-metal oxides for symmetrical solid oxide fuel cells / Пер. с рус. // Russian Chemical Reviews. 2021. Vol. 90. No. 6. P. 644-676. doi
20222
- Article Dosaev K., S.Ya. Istomin, Strebkov D., Tsirlina G., Antipov E., Savinova E. AMn2O4 spinels (A - Li, Mg, Mn, Cd) as ORR catalysts: The role of Mn coordination and oxidation state in the catalytic activity and their propensity to degradation // Electrochimica Acta. 2022. Vol. 428. Article 140923. doi
- Article Abdullaev M., N. V. Lyskov, S. Ya. Istomin, Antipov E. High-temperature electrical conductivity and electrochemical activity in oxygen redox reaction of La-doped Sr2FeCo0.5Mo0.5O6-δ // Journal of Solid State Electrochemistry. 2022. Vol. 26. No. 12. P. 2771-2779. doi
20241
Article Alexander E. Baranchikov, Kozlova T. O., Sergey Ya. Istomin, Mironov A. V., Vasilchikova T. M., Gippius A. A., Plakhova T. V., Darya N. Vasilyeva, Vladimir K. Ivanov. Sodium Cerium Phosphate, (Na,Ce)2Ce(PO4)2 · xH2O, with Mixed Cerium Oxidation States // ChemistrySelect. 2024. Vol. 9. No. 17. Article e202401010. doi