Heterogeneous catalysis

Narochny Grigory Borisovich

Contacts:

Phone: +79188911337
Email: narochgb@bk.ru

Post:

Leading researcher of the Research Institute "NTNM"

Education:

1981: Higher Professional, Novocherkassk Order of the Red Banner of Labor Polytechnic Institute named after Sergo Ordzhonikidze

Qualification:

1981: chemical engineer-technologist, specialty "Technology of inorganic substances".
1987: degree of PhD in Technical Sciences
1996 : associate Professor at the Department of «Technology of inorganic substances»
2013: awarded the academic title of assistant professor in the department «Technologies of inorganic and organic substances»

Topic of dissertation research:

Oxidation of concentrated sulfur dioxide gases on non-vanadium catalysts under pressure

Professional activity:

1981 – 1984 : postgraduate studies
1984 – 1988 : junior researcher of the laboratory "Catalysts and catalytic reactions".
1989 – 1992 : assistant of the Department of Technology of Inorganic Substances, SRSPU (NPI).
1992 – 1996 : senior lecturer of the Department of Technology of Inorganic Substances, SRSPU (NPI).
1996 – 2015 : associate Professor of the Department of Technology of Inorganic Substances, SRSPU (NPI).
2015 – 2022: associate Professor of the Department of Chemical Technologies, SRSPU (NPI).
from 2009 to the present: Leading researcher of the laboratory "Catalysts and technologies for processing carbon-containing materials" of the Research Institute "Nanotechnology and New Materials".

Scientific interests:

Heterogeneous catalysis; technology for processing carbon-containing raw materials.

Awards and achievements:

Honorary Worker of the SRSPU (NPI), Order No. 763-O dated 03.11 2020

Executor in projects:

2018-2020: RFBR grant 18-33-00946 "Multifunctional catalytic systems for combined reactions of synthesis and hydroconversion of hydrocarbons under conditions of Fischer-Tropsch synthesis".
2019-2020: Grant of the President of the Russian Federation 075-15-2019-391 «Development of technology and manufacture of experimental batch of multifunctional catalyst synthesis of winter and arctic diesel fuel from synthesis gas».
2019-2021: grant RSF 19-73-00089 "Controlled synthesis of hydrocarbons of a given composition on mono- and polyfunctional catalysts".
2019: R&D "Production and supply of a catalytic unit" for JSC "National Engineering Corporation" (contract No. 517 of the YU).
2019-2020: R&D "Scientific and technical research of the processes of gas transformation into a solid product" (contract with LLC Gazpromneft STC-19/08000/01879/R/943-YUU).
2020: R&D "Scientific, technical and experimental studies of gas-to-liquid conversion processes" (contract with LLC "Scientific and Production Association Neftekhimproekt" No. NHP-20-05/06/ 389- YU from 16.05.2020).
2021: R&D "Development of technology for processing natural gases into synthetic hydrocarbons" (contract with the scientific and production enterprise "Intor" No. 912 YU dated 07.12.2021).
2021-2022: R&D "Initial data for the design of a unit for processing associated petroleum gas into synthetic oil" (contract with Gaznefteservice LLC No. 775-YU dated 18.10.2021,).

Major publications:

Preliminary evaluation of a commercially viable Co-based hybrid catalyst system in Fischer-Tropsch synthesis combined with hydroprocessing, Yakovenko R.E., Savost'yanov A.P., Narochniy G.B., Soromotin V.N., Zubkov I.N., Papeta O.P., Svetogorov R.D., Mitchenko S.A., 2020, Catalysis Science & Technology, doi: 10.1039/D0CY00975J, IF 5.721, Q1

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The impact of Al₂O₃ promoter on an efficiency of C5+ hydrocarbons formation over Co/SiO2 catalysts via Fischer-Tropsch synthesis, Savost’ianov A.P., Yakovenko R.E., Sulima S.I., Bakun V.G., Narochniy G.B., Chernyshev V.M., Mitchenko S.A., 2017, Catalysis Today, 279. pp. 107-114, doi: 10.1016/j.cattod.2016.02.037, IF 4.233, Q1

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Unexpected increase in C5+ selectivity at temperature rise in high pressure Fischer-Tropsch synthesis over Co-Al2O3/SiO2 catalyst, Savost'yanov A.P., Yakovenko R.E., Narochniy G.B., Sulima S.I., Bakun V.G., Soromotin V.N., Mitchenko S.A., 2017, Catalysis Communications, Volume 99, P. 25-29, doi: 10.1016/j.catcom.2017.05.021, IF 3.507, Q1

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Effect of the Means Used to Synthesize Bifunctional Fischer–Tropsch Catalysts on the Composition and Properties of Synthetic Fuels, Yakovenko R. E., Bakun V. G., Zubkov I. N., Narochnyi G. B., Papeta O. P., Savost’yanov A. P., 2021, Catalysis in Industry, Volume 13, Issue 1, P. 38-47, doi: 10.1134/S2070050421010116, IF –

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Production of Motor-Fuel Hydrocarbon Fractions from Sunflower Husk Biomass, Il’in V. B., Narochnyi G. B., Zubenko A. F., Savost’yanov A. A., Yakovenko R. E., 2021, Solid Fuel Chemistry, Volume 55, Issue 1, P. 54-61, doi: 10.3103/S0361521921010043, IF 0.937

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Deactivation of Co-Al2O3/SiO2 Fischer–Trospch Synthesis Catalyst in Industrially Relevant Conditions, Savost’yanov A.P., Eliseev O.L., Yakovenko R.E., Narochniy G.B., Maslakov K.I., Zubkov I., Soromotin V.N., Kozakov A.T., Nicolskii A.V., Mitchenko S.A., 2020, Catalysis Letters, Volume 150, Issue 7, P. 1932-1941, doi: 10.1007/s10562-020-03097-z, IF 2,555

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Development of a Highly Productive Supported Bifunctional Catalyst Based on Zeolite ZSM-5 for the Production of Fuel Grade Hydrocarbon Fractions from CO and H2, Savost’yanov A.P., Yakovenko R.E., Narochnyi G.B., Zubkov, I.N., Nepomnyashchikh E.V., 2020, Petroleum Chemistry, Volume 60, Issue 5, P. 577-584, doi: 10.1134/S0965544120050102, IF 1.054

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Effect of Gas Circulation on the Synthesis of C35+ Long-Chain Hydrocarbons from CO and H2 at a High Pressure, Yakovenko R.E., Zubkov I.N., Narochnyi G.B., Savost’yanov A.P., 2020, Catalysis in Industry, Volume 12, Issue 2, P. 95-100, doi: 10.1134/S2070050420020105, IF -

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Effect of Re and Al2O3 Promotion on the Working Stability of Cobalt Catalysts for the Fischer–Tropsch Synthesis, Yakovenko R.E., Zubkov I.N., Narochniy G.B., Papeta O.P., Denisov O.D., Savost’yanov A.P., 2020, Kinetics and Catalysis, Volume 61, Issue 2, P. 310-317, doi: 10.1134/S0023158420020111, IF 0.934

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Deactivation of a Commercial Co–Al2O3/SiO2 Catalyst in Fischer–Tropsch Synthesis under High-Pressure and Gas Recycling Conditions, Savost’yanov A.P., Yakovenko R.E., Narochnyi G.B., Zubkov I.N., Sulima S.I., Soromotin V.N., Mitchenko S.A., 2020, Petroleum Chemistry, Volume 60, Issue 1, P. 81-91, doi: 10.1134/S0965544120010120, IF 1.054

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Effect of the Type of the Cobalt-Containing Component of a Composite Catalyst on the One-Stage Synthesis of Liquid Hydrocarbons from СО and Н2, Yakovenko R.E., Zubkov I.N., Narochnyi G.B., Nekroenko S.V., Savost’yanov A.P., 2019, Catalysis in Industry, Volume 11, Issue 4, P. 286-294, doi: 10.1134/S2070050419040093, IF -

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Effect of the Composition of Synthesis Gas on a Combined Process of the Synthesis and Hydrofining of Hydrocarbons from CO and H2, Yakovenko R.E., Narochnyi G.B., Zubkov, I.N., Nepomnyashchikh E.V., Savost’yanov A.P., 2019, Kinetics and Catalysis, Volume 60, Issue 2, P. 212-220, doi: 10.1134/S0023158419020137, IF 0.934

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Production of Motor Fuel Hydrocarbon Fractions from Pine Wood, Yakovenko R.E., I’lin V.B., Narochnyi G.B., Zubenko, A.F., Savost’yanov A.A., Lapidus A.L. 2019, Solid Fuel Chemistry, Volume 53, Issue 4, P. 239-240, doi: 10.3103/S0361521919040116, IF 0,767.

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Effect of Diffusion Limitations on the Fischer–Tropsch Synthesis of Long-Chain Hydrocarbons on a Cobalt–Alumina Silica Gel Catalyst, Savost’yanov A.P., Narochnyi G.B., Yakovenko R.E., Soromotin V.N., Zubkov I.N., 2018, Catalysis in Industry, Volume 10, Issue 3, P. 181-184, doi: 10.1134/S2070050418030078, IF -

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The Microstructure of Cobalt Silica Gel Catalyst in the Presence of Al2 O3 Additive, Sulima, S.I., Bakun, V.G., Yakovenko, R.E., Narochnyi, G.B., Savost’yanov, A.P., 2017, Kinetics and Catalysis, Volume 59, Issue 2, P. 218-228, doi: 10.1134/S0023158418020131, IF 0.934.

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Development and industrial approbation of technologies of cobalt catalysts for synthesis of long chain hydrocarbons from synthesis gas [РАЗРАБОТКА И ПРОМЫШЛЕННАЯ АПРОБАЦИЯ ТЕХНОЛОГИЙ КОБАЛЬТОВЫХ КАТАЛИЗАТОРОВ СИНТЕЗА ДЛИННОЦЕПОЧЕЧНЫХ УГЛЕВОДОРОДОВ ИЗ СИНТЕЗ-ГАЗА], Savostyanov A.P., Yakovenko R.E., Narochny G.B., Bakun, V.G., Merkin A.A., 2018, Izvestiya Vysshikh Uchebnykh Zavedenii, Seriya Khimiya i Khimicheskaya Tekhnologiya, Volume 61, Issue 9-10, Р. 53-58, doi: 10.6060/ivkkt.20186109-10.5864a, IF -.

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Enhancement of the Fischer-Tropsch process for producing long-chain hydrocarbons on a cobalt-alumina-silica gel catalyst, Savost’yanov A.P., Narochnyi G.B., Yakovenko R.E., Mitchenko S.A., Zubkov I.N., 2018, Petroleum Chemistry, Volume 58, Issue 1, P. 76-84, doi: 10.1134/S0965544118010139, IF 0.493.

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Synthesis of Low-Pour-Point Diesel Fuel in the Presence of a Composite Cobalt-Containing Catalyst, Savost’yanov A.P., Narochnyi G.B., Yakovenko R.E., Saliev A.N., Sulima, S.I., Zubkov I.N., Nekroenko S.V., Mitchenko S.A., 2017, Petroleum Chemistry, Volume 57, Issue 12, P. 1186-1189, doi: 10.1134/S0965544117060251, IF 0.493.

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Industrial catalyst for the selective Fischer-Tropsch synthesis of long-chain hydrocarbons, Savost’yanov A.P., Yakovenko, R.E., Narochnyi G.B., Bakun V.G., Sulima S.I., Yakuba E.S., Mitchenko S.A., 2017, Kinetics and Catalysis, Volume 58, Issue 1, P. 81-91, doi: 10.1134/S0023158417010062, IF 0.914.

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Links to identifiers:

Scopus: 9133466700

ORCID: 0000-0002-4034-505Х

e-Library:724063

SPIN-код: 9961-0621

SCOPUS

Ilyin Vladimir Borisovich

Contacts:

Email: ilyin07@gmail.com

Post:

Senior Researcher at the Laboratory "Catalysts and technologies for processing carbon-containing materials"

Education:

1971 – 1976: student, Department of "Technology of Inorganic Substances", Faculty of Chemical Technology, Novocherkassk Order of the Red Banner of Labor Sergo Ordzhonikidze Polytechnic Institute.
1978 – 1981: graduate student, Department of "Technology of Inorganic Substances", Faculty of Chemistry and Technology of theNPI.

Qualification:

1976: engineer-technologist in the specialty "Technology of inorganic substances"
1984: candidate of Technical Sciences, specialty 05.17.01 – Technology of inorganic substances
1994: associate professor at the Department of "Technology of inorganic Substances"

Topic of dissertation research:

Oxidation of sulfur dioxide and carbon monoxide of low concentrations on chromium-containing catalysts.

Professional activity:

1976 – 1978: engineer of the fundamental research laboratory, NPI
1981 – 1985: senior engineer of the fundamental research laboratory, NPI
1985 – 1987: senior researcher of the fundamental research laboratory, NPI
1987 – 1989: assistant of the Department of Technology of Inorganic Substances, NPI
1989 – 1990: senior lecturer of the Department of Technology of Inorganic Substances, NPI
1990 – 2004: associate Professor of the Department of Technology of Inorganic Substances, NPI
2004 – 2012: Head of the Department of Inorganic and Analytical Chemistry, Don State Agrarian University
2012-2015: Head of the Department of Chemistry, Don State Agrarian University
2015 – 2017: Head of the Department of Education Quality Management, Don State Agrarian University
from 2017 to the present: senior Researcher at the laboratory "Catalysts and Technologies for processing carbon-containing materials" of the Research Institute "Nanotechnology and New Materials"
2009 -2017: expert of the National Accreditation Agency in the field of education

Scientific interests:

Heterogeneous catalysis; technology for processing carbon-containing raw materials.

Executor in projects:

2020-2022: State Task No. 2019-0990, "Catalytic processing of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils"
2019 – 2020: R&D "Scientific and technical studies of the processes of gas transformation into a solid product" No. STC-19/08000/01879/R/943-YU
2017-2019: State task No. 10.2980.2017/PM, "Technology of Arctic diesel fuel from natural gases"
2014 – 2015: R&D "Provision of analytical reports on the market of domestic and foreign technologies and equipment in the field of natural gas processing in LNG" under contract No. 246-14-1/1420-yu dated 12/15/2014, SRSPU (NPI)
2012: R&D on the implementation of an integral part of the experimental design work cipher "Phlegmatizer" SRSPU (NPI), 2012
2011: State contract No. 16.516.11.6131 "Conducting problem-oriented exploratory research in the field of synthesis gas production from coal for energy technology complexes" cipher 2011-1.6-516-042-008
2010: State contract No. 02.740.11.0754 "Development of theoretical foundations and technological solutions for the creation of energy-technological complexes using coal for the production of synthetic fuels and hydrocarbon raw materials for the chemical and petrochemical industry" cipher 2010-1.1-229-055-020
2008 – 2009: State contract No. 02.516.11.6166 "Development of promising technological processes and methods for the creation of a technological complex for the production of synthetic motor fuels from coal" cipher 2008-6-1.6-19-06-004.

Major publications:

Thermodynamic modeling of the process of steam-air gasification of heavy oil residues. Saliev A.N., Ilyin V.B., Sevastyanov A.A., Yakovenko R.E.// Izvestia vysshikh uchebnykh zavedeniy. The North Caucasus region. Technical sciences. 2021. No. 1 (209). pp. 56-62.
Production of motor-fuel hydrocarbon fractions from sunflower husk biomass. Il’in V.B., Narochnyi G.B., Zubenko A.F., Savost’yanov A.A., Yakovenko R.E.// Solid Fuel Chemistry. 2021. Т. 55. № 1. С. 54-61.
Conversion of liquefied hydrocarbon gases on industrial nickel catalysts. Yakovenko R.E., Il’in V.B., Savost’yanov A.P., Zubkov I.N., Dul’nev A.V., Semenov O.A. // Catalysis in Industry. 2020. Т. 12. № 2. С. 119-126.
Processing of coals and natural organic substances into synthetic hydrocarbons. Part 7. Production of hydrocarbons of motor fractions from pine wood. Ilyin V.B., Narochny G.B., Yakovenko R.E., Zubenko A.F., Savostyanov A.A.// Izvestia vysshikh uchebnykh zavedeniy. The North Caucasus region. Technical sciences. 2019. No. 1 (201). pp. 88-93.
Thermodynamic study of the conversion of associated petroleum gases into methane. Ilyin V.B., Yakovenko R.E., Balashov D.M., Zemlyakov N.D., Savostyanov A.P. // Petrochemistry. 2019. vol. 59. No. 7. pp. 815-824.
Production of hydrocarbons of motor fractions from pine wood. Yakovenko R.E., Ilyin V.B., Narochny G.B., Zubenko A.F., Savostyanov A.A., Lapidus A.L. // Chemistry of solid fuels. 2019. No. 4. pp. 56-58.
Processing of coals and natural organic substances into synthetic hydrocarbons. Part 1. Principles of creating an energy technology module. Savostyanov A.P., Taranushich V.A., Ilyin V.B., Zemlyakov N.D., Narochny G.B., Yakovenko R.E., Saliev A. N. // Izvestia vysshikh uchebnykh zavedeniy. The North Caucasus region. Series: Technical Sciences 2012, No. 4, pp.104-109.

Links to identifiers:

Scopus: 7202838881

ResearcherID: A-4681-2014

ORCID: 0000-0001-8229-1697

e-Library: 220266

SPIN-код: 8739-2878

SCOPUS

Zemlyakov Nikolai Dmitrievich

Post:

Senior Researcher at the Research Institute "NTNM"

Education:

1972: higher education in the specialty "Technology of inorganic substances and chemical fertilizers".
1989: Candidate of Technical Sciences.
1990: The Higher Attestation Commission was awarded the academic title of SENIOR RESEARCHER in the specialty "Technology of inorganic substances.

Qualification:

Associate Professor of the South Russian State Polytechnic University (NPI) named after M.I. Platov, Department of Chemical Technologies.
Candidate of Technical Sciences.

Professional activity:

1972-1989: engineer, lead engineer, junior researcher, senior researcher at the experimental laboratory of the NPI.
from 1989 to the present: Associate Professor of the South Russian State Polytechnic University (NPI) named after M.I. Platov, Department of "Chemical Technology of Inorganic and Organic Substances".

Scientific interests:

Heterogeneous catalysis, Fischer-Tropsch synthesis, motor fuels, chemical processing of renewable plant raw materials.

Awards and achievements:

2010: by order of the Ministry of Education and Science of the Russian Federation, was awarded the title of "Honorary Worker of Higher Professional Education of the Russian Federation". (Order of the Ministry of Education and Science of the Russian Federation No. 1455/k-n dated December 29, 2010).
2021: awarded the title of "HONORARY WORKER OF THE SRSPU (NPI)". The decision of the Academic Council of the SRSPU (NPI) dated 27.01.2021 (Order No. 51-o dated 02.02.2021).

Participation in projects:

2014-2018: "New catalytic systems and processes of selective synthesis and processing of multifunctional organic substances" between the Russian Scientific Foundation, head of the scientific project - Doctor of Chemical Sciences, Professor of the Department of Chemical Technologies Viktor Mikhailovich Chernyshev and the SRSPU (NPI) in accordance with Agreement No. 14-23-00078 for conducting fundamental scientific research and exploratory scientific research;
2019-2020: R&D "Scientific and technical research of the processes of gas transformation into a solid product" (contract with LLC Gazpromneft STC-19/08000/01879/R/943-YUU);
2019-2022: "Catalytic processing of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils".

Major publications:

Ilyin, V. B., Yakovenko, R. E., Belashov, D. M., Zemlyakov, N. D., & Savost’yanov, A. P. (2019). Thermodynamic study of associated petroleum gas reforming to methane. Petroleum Chemistry, 59(6), 641-649.
Bakun, V. G., Saliev, A. N., Zemlyakov, N. D., Savost’yanov, A. P., & Lapidus, A. L. (2016). Structure and gasification of coal from the Gukovo-Gryaznovskoe deposit. Solid Fuel Chemistry, 50(2), 69-75.
Savost’yanov, A. P., Narochnyi, G. B., Yakovenko, R. E., Astakhov, A. V., Zemlyakov, N. D., Merkin, A. A., & Komarov, A. A. (2014). Developing a pilot industrial plant for the production of synthetic hydrocarbons from natural gas. Catalysis in Industry, 6(3), 212-217.
Savost’yanov, A. P., Narochnyi, G. B., Yakovenko, R. E., Bakun, V. G., & Zemlyakov, N. D. (2014). Synthesis of high-molecular-weight hydrocarbons from CO and H2 over a cobalt catalyst. Catalysis in Industry, 6(4), 292-297.
Savost’yanov, A. P., Strizhakova, Y. A., Lapidus, A. L., Taranushich, V. A., Bakun, V. G., Budtsov, V. S., ... & Ponomarev, V. V. (2011). Catalysts in the conversion of coal and shale into synthetic hydrocarbons. Solid Fuel Chemistry, 45(2), 97-99.
Chernyshev, V. M., Rakitov, V. A., Astakhov, A. V., Sokolov, A. N., Zemlyakov, N. D., & Taranushich, V. A. (2006). Regioselective synthesis of alkyl derivatives of 3, 5-diamino-1, 2, 4-triazole. Russian journal of applied chemistry, 79(4), 624-630.
Chernyshev, V. M., Gaidukova, G. V., Zemlyakov, N. D., & Taranushich, V. A. (2005). Synthesis of 1-acyl-and 1-arylsulfonyl derivatives of 3, 5-diamino-1, 2, 4-triazole. Russian Journal of Applied Chemistry, 78(5), 776-780.
Chernyshev, V. M., Zemlyakov, N. D., Il'in, V. B., & Taranushich, V. A. (2000). Synthesis of 3, 5-dinitro-1, 2, 4-triazole. Russian Journal of Applied Chemistry, 73(5), 839-841.
Chernyshev, V. M., Zemlyakov, N. D., & Taranushich, V. A. (2000). Spectrophotometric analysis of mixtures of 3, 5-diamino-1, 2, 4-triazole, dicyanodiamide, and guanylurea. Russian Journal of Applied Chemistry, 73(5), 914-915.
Ilyushin, M. A., Tselinskii, I. V., Petrova, N. A., Chernai, A. V., & Zemlyakov, N. D. (1999). Salts of perchlorylamide as a novel class of light-sensitive explosive for laser initiation. Hanneng Cailiao, 7(3), 122-123.
Chernyshev, V. M., Zemlyakov, N. D., & Taranushich, V. A. (1999). Formation of 3, 5-Diamino-1, 2, 4-triazole and 3, 5, 7-Triamino-1, 2, 4-triazolo [4, 3a]-1, 3, 5-triazine in Melts of Dicyanodiamide and Hydrazine Salts. RUSSIAN JOURNAL OF APPLIED CHEMISTRY C/C OF ZHURNAL PRIKLADNOI KHIMII, 72(10), 1780-1783.
Chernyshev, V. M., Zemlyakov, N. D., Taranushich, V. A., & Rakitov, E. A. (1999). Isolation of 3, 5-diamino-1, 2, 4-triazole from solutions in the form of its onium nitrate and sulfate. Russian Journal of Applied Chemistry, 72(10), 1784-1786.

Agliullin Marat Radikovich

Post:

Senior Researcher at the Laboratory "Catalysts and technologies for processing carbon-containing materials"

Education:

2006-2011: student, Ufa State Petroleum Technical University.
2011-2015: postgraduate student, Institute of Petrochemistry and Catalysis of the Russian Academy of Sciences, Ufa.

Qualification:

2011: engineer, specialty "Chemical technology of organic substances".
2015: Candidate of Chemical Sciences, specialty 02.00.15 "Kinetics and catalysis".

Topic of dissertation research:

Sol-gel synthesis of mesoporous aluminosilicates, their application in olefin oligomerization and phenylindane nitration

Professional activity:

10.2014-08.2016: intern Researcher at the Institute of Petrochemistry and Catalysis of the Russian Academy of Sciences.
08.2016-12.2016: junior Researcher at the Institute of Petrochemistry and Catalysis of the Russian Academy of Sciences.
12.2017-04.2020: researcher at the Institute of Petrochemistry and Catalysis of the Russian Academy of Sciences.
from 04.2020 to the present: senior Researcher at the laboratory "Catalysts and technologies for processing carbon-containing materials".

Scientific interests:

Zeolites, mesoporous materials, heterogeneous catalysts, petrochemicals

Project manager:

2021-2023: RSF Grant No. 21-73-00013, "SAPO-41 hierarchical molecular sieves with predominant localization of acid centers in their channels — the way to resource-saving technologies for producing low-hardening diesel fuels and base synthetic oils".
2018-2020: RSF Grant No. 18-73-00007, "Highly selective gas-phase isomerization of cyclohexanonoxime on hierarchical zeolite SAPO-11 with a single introduction of silicon – the way to an environmentally safe and resource-saving caprolactam production technology".
2018-2019: RFBR Project No. 18-33-00077 "SAPO-11 granular silicoaluminophosphates with a high degree of crystallinity with a hierarchical porous structure — a new generation of catalysts for the production of Arctic and winter diesel fuel".
2021-2023: scholarship of the President of the Russian Federation for young scientists and postgraduates engaged in promising research and development in priority areas of modernization of the Russian economy, "Hierarchical molecular MAlPO4 sieves with AEL, AFO structure and single introduction of heteroatoms (M: Si; Mg, Sn) — the way to new resource-saving technologies for producing Arctic diesel fuels".
2019: grant of the Republic of Bashkortostan to young scientists "A new generation of catalysts for winter diesel fuel production processes".
2015-2016: scholarship of the Government of the Russian Federation on priority areas of modernization and technological development of the Russian economy "Sol-gel synthesis of mesoporous aluminosilicates".

Executor in projects:

2020-2022: State task No. 2019-0990, "Catalytic processing of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils"

Major publications:

Agliullin, M. R., Yakovenko, R. E., Kolyagin, Y. G., Serebrennikov, D. V., Vildanov, F. S., Prosochkina, T. R., Kutepov, B. I. (2022). Relation between Morphology and Porous Structure of SAPO-11 Molecular Sieves and Chemical and Phase Composition of Silicoaluminophosphate Gels. Gels, 8(3), 142.
Agliullin, M. R., Kutepov, B. I., Ostroumova, V. A., Maximov, A. L. (2021). Silicoaluminophosphate Molecular Sieves SAPO-11 and SAPO-41: Synthesis, Properties, and Applications for Hydroisomerization of C₁₆₊ n-Paraffins. Part 2: Current State of Research on Methods to Control the Crystal Morphology, Dispersion, Acidic Properties, Secondary Porous Structure, and Catalytic Properties of SAPO-11 and SAPO-41 in Hydroisomerization of C16+ n-Paraffins (A Review). Petroleum Chemistry, 61(8), 852-870.
Agliullin, M. R., Kutepov, B. I., Ostroumova, V. A., Maximov, A. L. (2021). Silicoaluminophosphate Molecular Sieves SAPO-11 and SAPO-41: Synthesis, Properties, and Applications for Hydroisomerization of C₁₆₊ n-Paraffins. Part 1: Current State of Research on SAPO-11 and SAPO-41 Synthesis (A Review). Petroleum Chemistry, 61(8), 836-851.
Agliullin, M. R., Kutepov, B. I. (2021). Intermediate Aluminophosphates as a Tool of Control over the Morphology and Secondary Porous Structure of AlPO₄-11. Petroleum Chemistry, 61(8), 825-835.
Yakovenko, R. E., Zubkov, I. N., Bakun, V. G., Agliullin, M. R., Saliev, A. N., Savost’yanov, A. P. (2021). Bifunctional Cobalt Catalyst for the Synthesis of Waxy Diesel Fuel by the Fischer–Tropsch Method: From Development to Commercialization. Part 1: Selection of the Industrial Sample of the Zeolite Component HZSM-5. Catalysis in Industry, 13(3), 230-238.
Yakovenko, R. E., Agliullin, M. R., Zubkov, I. N., Papeta, O. P., Khliyan, G. T., Savostyanov, A. P. (2021). Bifunctional Cobalt-Containing Catalytic Systems Based on SAPO-11 Molecular Sieves in Fischer–Tropsch Synthesis of Fuels. Petroleum Chemistry, 61(3), 378-387.
Khazipova, A. N., Travkina, O. S., Agliullin, M. R., Pavlova, I. N., Kutepov, B. I., Dyakonov, V. A. (2021). Modification of the Physicochemical Properties of High-Crystallinity Granular Y Zeolite by Steam Heating and Acid Treatment. Petroleum Chemistry, 61(3), 284-291.
Agliullin, M. R., Lazarev, V. V., Kutepov, B. I. (2021). Influence of the formation conditions of aluminophosphate gels on the morphology and pore structure of molecular sieve AlPO₄-11. Russian Chemical Bulletin, 70(1), 47-55.
Khayrullina, Z., Ahmed, K., Agliullin, M. (2020, December). Selective Crystallization of Highly Dispersed Silicoaluminophosphate SAPO-11. In 2020 International Conference on Advanced Science and Engineering (ICOASE)(pp. 65-68).
Agliullin, M. R., Khairullina, Z. R., & Kutepov, B. I. (2020). Crystallization of a Pelletized High-Crystallinity SAPO-11 Molecular Sieve with a Hierarchical Pore Structure. Catalysis in Industry, 12(4), 273-279.
Agliullin, M. R., Kutepov, B. I. (2020). Selective Crystallization of AlPO4-41 Molecular Sieve in the Presence of Diethylamine. Petroleum Chemistry, 60(8), 890-894.
Bayguzina, A. R., Gallyamova, L. I., Agliullin, M. R., Khusnutdinov, R. I. (2020). A Catalyst System Based on Copper (II) Bromide Supported on Zeolite HY with a Hierarchical Pore Structure in Benzyl Butyl Ether Synthesis. Petroleum Chemistry, 60(8), 937-941.
Agliullin, M. R., Faizullin, A. V., Khazipova, A. N., Kutepov, B. I. (2020). Synthesis of Fine-Crystalline SAPO-11 Zeolites and Analysis of Their Physicochemical and Catalytic Properties. Kinetics and Catalysis, 61(4), 654-662.
Agliullin, M. R., Khairullina, Z. R., Kuvatova, R. Z., Kutepov, B. I. (2020). Effect of the Aging Temperature of Gel on the Synthesis and Properties of the Silicoaluminophosphate Molecular Sieve SAPO-11. Catalysis in Industry, 12(2), 89-94.
Agliullin, M. R., Kuvatova, R. Z., Kutepov, B. I. (2020). Formation of Intermediate Phases during Crystallization of Aluminophosphate and Silicoaluminophosphate Sieves with the AEL Structure. Petroleum Chemistry, 60(4), 451-458.
Sviridenko, N. N., Vosmerikov, A. V., Agliullin, M. R., Kutepov, B. I. (2020). General features of catalytic upgrading of karmalskoe heavy oil in the presence of amorphous aluminosilicates. Petroleum Chemistry, 60(3), 384-391.
Amrutham, V.,Agliullin, M. R., Mamedа, N., Gajulа, K. S., Grigor'evа, N. G., Kutepov, B. I., Akulа, V., Nama, N. (2020). A heterogeneous catalytic and solvent-free approach to 1, 2-dihydroquinoline derivatives from aromatic amines and alkynes by tandem hydroarylation-hydroamination. Catalysis Communications, 135, 105888.
Grigor’eva, N. G., Agliullin, M. R., Kostyleva, S. A., Bubennov, S. V., Bikbaeva, V. R., Gataulin, A. R., Filippova, N. A., Kutepov, B. I., Narender, N. (2019). Mesoporous Aluminosilicates in the Synthesis of N-Heterocyclic Compounds. Kinetics and Catalysis, 60(6), 733-743.
Travkina, O. S., Agliullin, M. R., Kuvatova, R. Z., Pavlova, I. N., Narender, N., Kutepov, B. I. (2019). New method of synthesis of hierarchical mordenite of high crystallinity and its application in hydroizomerization of benzene-n-heptane mixture. Journal of Porous Materials, 26(4), 995-1004.
Bubennov, S. V., Grigor’eva, N. G., Serebrennikov, D. V., Agliullin, M. R., Kutepov, B. I. (2019). Oligomerization of Unsaturated Compounds in the Presence of Amorphous Mesoporous Aluminosilicates. Petroleum Chemistry, 59(7), 682-690.
Agliullin, M. R., Khairullina, Z. R., Faizullin, A. V., & Kutepov, B. I. (2019). Crystallization of AlPO₄-11 Aluminophosphate from Various Aluminum Sources. Petroleum Chemistry, 59(3), 349-353.
Kutepov, B. I., Travkina, O. S., Agliullin, M. R., Khazipova, A. N., Pavlova, I. N., Bubennov, S. V., Kostyleva, S. A., Grigor’eva, N. G. (2019). High-Crystallinity Granular Zeolites of LTA, FAU, and MOR Structural Types with Hierarchical Porous Structure: Synthesis and Properties. Petroleum Chemistry, 59(3), 297-309.
Agliullin, M. R., Khairullina, Z. R., Faizullin, A. V., Petrov, A. I., Badretdinova, A. A., Talzi, V. P., Kutepov, B. I. (2019). Key Stages in the Formation of AlPO4-11 via the Crystallization of a Boehmite-Based Aluminophosphate Gel. Catalysis in Industry, 11(2), 87-94.
Agliullin, M. R., Khairullina, Z. R., Faizullin, A. V., Petrov, A. I., Badretdinova, A. A., Talzi, V. P., Kutepov, B. I. (2019). Selective Crystallization of Aluminophosphate Molecular Sieves with an AEL Structure. Catalysis in Industry, 11(1), 1-6.
Grigor’eva, N. G., Filippova, N. A., Gataulin, A. R., Bubennov, S. V., Agliullin, M. R., Kutepov, B. I., Narender, N. (2017). Aluminosilicates with different pores structure in the synthesis of 2, 2, 4-trimethyl-1, 2-dihydroquinoline and N-phenyl-2-propanimine. Russian Chemical Bulletin, 66(11), 2115-2121.
Grigor'eva, N. G., Filippova, N. A., Agliullin, M. R., Kutepov, B. I., Narender, N. (2017). Crystalline and amorphous aluminosilicates with different pore structures for the synthesis of pyridines. Journal of Chemical Research, 41(5), 253-261.
Travkina, O. S., Agliullin, M. R., Filippova, N. A., Khazipova, A. N., Danilova, I. G., Grigor'Eva, N. G., Nama, N., Pavlov, M. L., Kutepov, B. I. (2017). Template-free synthesis of high degree crystallinity zeolite Y with micro–meso–macroporous structure. RSC advances, 7(52), 32581-32590.
Agliullin, M. R., Danilova, I. G., Faizullin, A. V., Amarantov, S. V., Bubennov, S. V., Prosochkina, T. R., Grigor’eva, N. G., Paukshtis, E A., Kutepov, B. I. (2016). Sol-gel synthesis of mesoporous aluminosilicates with a narrow pore size distribution and catalytic activity thereof in the oligomerization of dec-1-ene. Microporous and Mesoporous Materials, 230, 118-127.
Kharrasov, R. U., Agliullin, M. R., Talipova, R. R., Badikova, A. D., Kutepov, B. I. (2016). Nontemplate sol–gel synthesis of catalytically active mesoporous titanosilicates. Catalysis in Industry, 8(4), 287-292.
Agliullin, M. R., Grigor’eva, N. G., Danilova, I. G., Magaev, O. V., Vodyankina, O. V. (2015). Template-free sol-gel synthesis of catalytically active mesoporous aluminosilicates. Kinetics and Catalysis, 56(4), 501-508.
Grigorieva, N. G., Agliullin, M. R., Talzi, V. P., Vodyankina, O. V., Kutepov, B. I. (2015). Nitration of 1, 3, 3-trimethyl-1-phenylindane on mesoporous aluminosilicates. Russian Chemical Bulletin, 64(4), 852-858.
Grigor’eva, N. G., Suleimanova, A. M., Agliullin, M. R., Kutepov, B. I. (2014). Synthesis of carboxylic acid esters in the presence of micro-and mesoporous aluminosilicates. Russian journal of applied chemistry, 87(6), 773-779.

Links to identifiers:

Scopus: 56480769400

ResearcherID: M-6486-2016

ORCID: 0000-0002-2210-9520

e-Library: 887500

SCOPUS

Zubenko Alexander Fedorovich

Post:

Associate Professor, Candidate of Technical Sciences

Sulima Sergey Ivanovich

Post:

Associate Professor, Candidate of Technical Sciences

Education:

1987: higher education in the specialty "Technology of inorganic substances".
1998: candidate of Technical Sciences in the specialty "Technology of inorganic substances".

Qualification:

Associate Professor of the South Russian State Polytechnic University (NPI) named after M.I. Platov.
Candidate of Technical Sciences.

Professional activity:

2009-2017: researcher at the Research Institute "NTNM".
2017-2020: senior researcher at the Research Institute "NTNM".
from 2020 to the present: associate professor of the laboratory.

Scientific interests:

Heterogeneous catalysis, Fischer-Tropsch synthesis, synthesis of methanol and higher alcohols, motor fuels and oils, chemical processing of renewable vegetable raw materials.

Awards and achievements:

2017: diploma of the Ministry of Education and Science of the Russian Federation

Major publications:

The impact of Al2O3 promoter on an efficiency of C5+ hydrocarbons formation over Co/SiO2 catalysts via Fischer-Tropsch synthesis, Savost’ianov A.P., Yakovenko R.E., Sulima S.I., Bakun V.G., Narochniy G.B., Chernyshev V.M., Mitchenko S.A., 2017, Catalysis Today, 279. pp. 107-114, doi: 10.1016/j.cattod.2016.02.037, IF 4.233, Q1

Link

Unexpected increase in C5+ selectivity at temperature rise in high pressure Fischer-Tropsch synthesis over Co-Al2O3/SiO2 catalyst, Savost'yanov A.P., Yakovenko R.E., Narochniy G.B., Sulima S.I., Bakun V.G., Soromotin V.N., Mitchenko S.A., 2017, Catalysis Communications, Volume 99, P. 25-29, doi: 10.1016/j.catcom.2017.05.021, IF 3.507, Q1

Link

Prospects for Technologies in the Production of Synthetic Base Stocks for Engine Oils (A Review), Sulima S. I., Bakun V. G., Chistyakova N. S., Larina M. V., Yakovenko R. E., Savost’yanov A. P., 2021, Petroleum Chemistry, Volume 61, Issue 11, P. 1178-1189, doi: 10.1134/S0965544121110013, IF 1.029.

Link

Influence of operating conditions on the main characteristics of a cobalt Fischer-Tropsch catalyst, Yakovenko, R. E., Savost’yanov, A. P., Chistyakova, N. S., Bakun, V. G., & Sulima, S. I., 2021, 3rd International Scientific and Practical Conference on Actual Problems of the Energy Complex: Mining, Production, Transmission, Processing and Environmental Protection, APEC 2021, Volume 808, Issue 1, № 012041, doi: 10.1088/1755-1315/808/1/012041.

Link

Deactivation of a Commercial Co–Al₂O₃/SiO₂Catalyst in Fischer–Tropsch Synthesis under High-Pressure and Gas Recycling Conditions, Savost’yanov A.P., Yakovenko R.E., Narochnyi G.B., Zubkov I.N., Sulima S.I., Soromotin V.N., Mitchenko S.A., 2020, Petroleum Chemistry, Volume 60, Issue 1, P. 81-91, doi: 10.1134/S0965544120010120, IF 1.054.

Link

The Microstructure of Cobalt Silica Gel Catalyst in the Presence of Al2 O3 Additive, Sulima, S.I., Bakun, V.G., Yakovenko, R.E., Narochnyi, G.B., Savost’yanov, A.P., 2017, Kinetics and Catalysis, Volume 59, Issue 2, P. 218-228, doi: 10.1134/S0023158418020131, IF 0.934.

Link

Synthesis of Low-Pour-Point Diesel Fuel in the Presence of a Composite Cobalt-Containing Catalyst, Savost’yanov A.P., Narochnyi G.B., Yakovenko R.E., Saliev A.N., Sulima, S.I., Zubkov I.N., Nekroenko S.V., Mitchenko S.A., 2017, Petroleum Chemistry, Volume 57, Issue 12, P. 1186-1189, doi: 10.1134/S0965544117060251, IF 0.493.

Link

Industrial catalyst for the selective Fischer-Tropsch synthesis of long-chain hydrocarbons, Savost’yanov A.P., Yakovenko, R.E., Narochnyi G.B., Bakun V.G., Sulima S.I., Yakuba E.S., Mitchenko S.A., 2017, Kinetics and Catalysis, Volume 58, Issue 1, P. 81-91, doi: 10.1134/S0023158417010062, IF 0.914.

Link

Influence of Manganese on the Catalytic Properties and Structure of the Active Surface of a Cobalt Fischer–Tropsch Catalyst. S. I. Sulima, V. G. Bakun, A. N. Saliev, N. P. Shabel’skaya, I. N. Zubkov & V. N. Soromotin, 2020, Petroleum Chemistry Volume 60, P. 563–570. doi:10.1134/S0965544120050126. IF 0.493.

Link

Influence of manganese on formation of active phase of cobalt catalyst of hydrocarbon synthesis. Sulima S.I.,Bakun V.G., Shabelskaya N.P.,Saliev A.N.,Chistyakova N.S.,Savost'yanov A.P., 2020. Volume 63(5), P. 70-75.

Link

Recent development in heavy paraffin synthesis from CO and H2. Eliseev, O.L., Savost'yanov, A.P., Sulima, S.I., Lapidus, A.L., 2018, Mendeleev Communications, Volume 28(4), P. 345-351. doi:10.1016/j.mencom.2018.07.001. IF 1.786.

Link

SCOPUS

Saliev Alexey Nikolaevich

Post:

Researcher at the research laboratory "New composite and functional materials with special properties".

Education:

2011: higher education in the specialty "Chemical technology of organic substances".
2018: candidate of Technical Sciences in the specialty "Technology of inorganic substances".

Topic of dissertation research:

Technology of cobalt zeolite-containing catalyst for selective synthesis of liquid hydrocarbons from CO and H₂

Professional activity:

from 2009 to the present: researcher at the research laboratory "New composite and functional materials with special properties".

Scientific interests:

Heterogeneous catalysis, technology of catalysts, processing of carbon-containing substances

Awards and achievements:

2009: winner of the "UMNIK" program.
2019: scholarship of the President of the Russian Federation to young scientists and postgraduates.

Executor in projects:

2020-2022: State task No. 2019-0990 "Catalytic processing of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils".
2019-2020: scientific and technical studies of the processes of gas transformation into a solid product (STC-19/08000/01879/R/943-YUU).
2017-2019: State task No. 10.2980.2017/PM "Technology of Arctic diesel fuel from natural gases".
Project No. 075-03-2021-016/4 in the laboratory "New composite and functional materials with special properties".

Major publications:

Yakovenko, R. E., Zubkov, I. N., Bakun, V. G., Agliullin, M. R., Saliev, A. N., & Savost’yanov, A. P. (2021). Bifunctional Cobalt Catalyst for the Synthesis of Waxy Diesel Fuel by the Fischer–Tropsch Method: From Development to Commercialization. Part 1: Selection of the Industrial Sample of the Zeolite Component HZSM-5. Catalysis in Industry, 13(3), 230-238. DOI 10.1134/S2070050421030120

Molodtsova, T., Gorshenkov, M., Saliev, A., Vanyushin, V., Goncharov, I., & Smirnova, N. (2021). One-step synthesis of γ-Fe₂O₃/Fe₃O₄ nanocomposite for sensitive electrochemical detection of hydrogen peroxide. Electrochimica Acta, 370, 137723. DOI 10.1016/j.electacta.2021.137723

Sulima, S. I., Bakun, V. G., Saliev, A. N., Shabel’skaya, N. P., Zubkov, I. N., & Soromotin, V. N. (2020). Influence of Manganese on the Catalytic Properties and Structure of the Active Surface of a Cobalt Fischer–Tropsch Catalyst. Petroleum Chemistry, 60, 563-570. DOI 10.1134/S0965544120050126

Sulima, S. I., Saliev, A. N., Chistyakova, N. S., Savost’yanov, A. P., Bakun, V. G., & Shabelskaya, N. P. (2020). Influence of manganese on formation of active phase of cobalt catalyst of hydrocarbon synthesis. ChemChemTech, 63(5), 70-75. DOI 10.6060/ivkkt.20206305.6170

Savost’yanov, A. P., Yakovenko, R. E., Saliev, A. N., Narochnyi, G. B., Mitchenko, S. A., Zubkov, I. N., ... & Kirsanov, V. A. (2018). Supported Bifunctional Cobalt Catalysts for CO and H₂ Conversion to Fuel Fractions of Hydrocarbons. Petroleum Chemistry, 58(5), 434-443. DOI 10.1134/S0965544118030143

Sulima, S. I., Bakun, V. G., Yakovenko, R. E., Shabel’skaya, N. P., Saliev, A. N., Narochnyi, G. B., & Savost’yanov, A. P. (2018). The Microstructure of Cobalt Silica Gel Catalyst in the Presence of Al₂O₃ Additive. Kinetics & Catalysis, 59(2), 218-228. DOI 10.1134/S0023158418020131

Savost'yanov, A. P., Narochnyi, G. B., Yakovenko, R. E., Saliev, A. N., Sulima, S. I., Zubkov, I. N., ... & Mitchenko, S. A. (2017). Synthesis of Low-Pour-Point Diesel Fuel in the Presence of a Composite Cobalt-Containing Catalyst. Petroleum Chemistry, 57(12), 1186-1189. DOI 10.1134/S0965544117060251

Bakun, V. G., Saliev, A. N., Zemlyakov, N. D., Savost’yanov, A. P., & Lapidus, A. L. (2016). Structure and gasification of coal from the Gukovo-Gryaznovskoe deposit. Solid Fuel Chemistry, 50(2), 69-75. DOI 10.3103/S0361521916020026

Links to identifiers:

Scopus: 57189366412

ResearcherID: AAH-1631-2021

ORCID: 0000-0002-5787-3393

e-Library: 724091

SCOPUS

Zubkov Ivan Nikolaevich

Contacts:

Phone: +79381145666
Email: 71650021.qwe@mail.ru

Post:

Junior researcher at the laboratory "Catalysts and technologies for processing carbon-containing materials"

Education:

2012-2016: student, Department of "Chemical Technology of High-molecular Compounds, Organic, Physical and Colloidal Chemistry", Faculty of Technology, SRSPU (NPI).
2016-2018: master's degree student, Department of Chemical Technologies, Faculty of Technology, SRSPU (NPI).
2018-2022: postgraduate student, Department of «Chemical Technologies», Faculty of Technology, SRSPU (NPI).

Qualification:

2016: bachelor's degree in the field of preparation 18.03.01 "Chemical technology", orientation (profile) "Technology and processing of polymers" (diploma with honors).
2018: master's degree in the field of preparation 18.04.01 "Chemical technology", orientation (profile) "Chemical technology (diploma with honors).
2022 - Researcher. Lecturer-researcher in the direction 08.06.01 - Engineering and technology of construction
2022 - Candidate of Technical Sciences (2.6.10. Technology of organic substances, Dissertation Council 24.2.326.04, Federal State Budgetary Educational Institution of Higher Education "MIREA - Russian Technological University")

Topic of dissertation research:

High-powered synthesis of higher hydrocarbons C₃₅₊from CO and H₂

Professional activity:

10.2015-08.2016: laboratory assistant of the «Nanotechnologies and new materials».
08.2016-12.2016: engineer of the RI «Nanotechnology and new materials».
02.2017-12.2019: laboratory researcher of the RI «Nanotechnology and new materials».
12.2019-04.2020: engineer of the RI «Nanotechnology and new materials».
from 04.2020 to the present: junior research assistant at the laboratory "Catalysts and technologies for processing carbon-containing materials".

Scientific interests:

Fundamental problems of chemical technology; heterogeneous catalysis; catalysts (contact substances); liquid fuels

Awards and achievements:

Diploma of the first degree at the IV regional student scientific and practical conference of the Southern Federal District "Chemistry: achievements and prospects" section "Chemistry of new materials", Rostov-on-Don, 2021.
Certificate for receiving a nominal scholarship of the Center-Invest Bank and the Endowment Fund "Education and Science of the Southern Federal District", Rostov-on-Don, 2017.
Diploma of the first degree at the II regional student scientific and practical conference of the Southern Federal District "Chemistry: achievements and prospects" section "Chemistry of new materials", Rostov-on-Don, 2017.
Diploma for the best report presented within the framework of the events of the VII All-Russian Scientific Conference (with international participation) "Actual problems of the theory and practice of heterogeneous catalysts and adsorbents" (June 28 - July 1, 2023, Suzdal)
Diploma from the Novosibirsk branch of the Russian Chemical Society named after. DI. Mendeleev for the best report at the section "Catalytic Processes for the Processing of Hydrocarbon Raw Materials" as part of the work of the VII All-Russian Scientific Youth School-Conference "Chemistry under the sign of SIGMA: research, innovation, technology" (May 16-18, 2023, Omsk)
Gratitude for the development of scientific research, achievements in the implementation of programs in priority areas of science and technology (Order No. 73-O dated January 31, 2023, Novocherkassk)
Diploma of the Presidium of the Rostov Regional Organization of the All-Russian Trade Union of Education for many years of conscientious work in the Trade Union for the Protection of Social and Labor Rights and Interests of University Employees (Minutes No. 27 dated October 26, 2022, Rostov-on-Don)

Project manager:

2023-2024: RSF Grant No. 23-23-00466, “Obtaining polyalphaolefin oils from CO and H2”
2019-2021: Program «UMNIK», "Development of technology for the production of high-quality synthetic oils from natural and associated petroleum gases for use in internal combustion engines" (14473GU/2019 dated July 17, 2019).
2022-2024: Scholarship of the President of the Russian Federation for young scientists and postgraduates engaged in promising research and development in priority areas of modernization of the Russian economy for 2022-2024, "Development of technology for catalytic conversion of CO2 into synthetic hydrocarbons and higher alcohols".

Executor in projects:

2020-2023: State task No. 2019-0990, "Catalytic processing of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils".
2020-2022 : RFBR, "Catalysts for the production of higher alcohols by catalytic conversion of synthesis gas" (20-33-90149 of 08/20/2020).
2019-2021: grant of the President of the Russian Federation, "Development of technology and production of a pilot batch of a multifunctional catalyst for the synthesis of winter and Arctic diesel fuel from synthesis gas" (MK-364.2019.3).
2019-2021: RNF grant, "Controlled synthesis of hydrocarbons of a given composition on mono- and polyfunctional catalysts" (19-73-00089/581-YU from 07/29/2019).
2019-2020: Scientific and technical studies of the processes of gas transformation into a solid product (STC-19/08000/01879/R/943-YUU).
2018-2020: RFBR grant, "Multifunctional catalytic systems for combined reactions of synthesis and hydroconversion of hydrocarbons under conditions of Fischer-Tropsch synthesis" (18-33-00946/18/412- YUU from 21.03.2018).
2017-2019: State task No. 10.2980.2017/PM, "Technology of Arctic diesel fuel from natural gases".

Major publications:

Yakovenko, R. E., Bakun, V. G., Sulima, S. I., Narochnyi, G. B., Mitchenko, S. A., Zubkov, I. N., & Savost’yanov, A. P. (2023). Cobalt Supported and Polyfunctional Hybrid Catalysts for Selective Fischer–Tropsch Synthesis: A Review. Catalysis in Industry, 15(1), 6-20.
Yakovenko R.E., Bakun V.G., Zubkov I.N., Papeta O.P., Saliev A.N., Savostyanov A.P. Bifunctional cobalt catalyst for the synthesis of low pour point diesel fuel by the Fischer-Tropsch method - from development to implementation. Part 2. Optimization of the component composition of the catalyst. catalysis in industry. 2023;23(2):15-25.
Yakovenko, R. E., Zubkov, I. N., Bakun, V. G., Agliullin, M. R., Saliev, A. N., & Savost’yanov, A. P. (2021). Bifunctional Cobalt Catalyst for the Synthesis of Waxy Diesel Fuel by the Fischer–Tropsch Method: From Development to Commercialization. Part 1: Selection of the Industrial Sample of the Zeolite Component HZSM-5. Catalysis in Industry, 13(3), 230-238.
Yakovenko, R. E., Zubkov, I. N., Bakun, V. G., & Savost’yanov, A. P. (2021). Combined Synthesis and Hydroprocessing of Hydrocarbons over Co/SiO₂+ZSM-5+Al₂O₃ Catalysts Promoted by Nickel. Petroleum Chemistry, 61(4), 516-526.
Yakovenko, R. E., Agliullin, M. R., Zubkov, I. N., Papeta, O. P., Khliyan, G. T., & Savostyanov, A. P. (2021). Bifunctional Cobalt-Containing Catalytic Systems Based on SAPO-11 Molecular Sieves in Fischer–Tropsch Synthesis of Fuels. Petroleum Chemistry, 61(3), 378-387.
Yakovenko, R. E., Bakun, V. G., Zubkov, I. N., Narochnyi, G. B., Papeta, O. P., & Savost’yanov, A. P. (2021). Effect of the Means Used to Synthesize Bifunctional Fischer–Tropsch Catalysts on the Composition and Properties of Synthetic Fuels. Catalysis in Industry, 13(1), 38-47.
Yakovenko, R. E., Zubkov, I. N., Savost’yanov, A. P., Soromotin, V. N., Krasnyakova, T. V., Papeta, O. P., & Mitchenko, S. A. (2021). Hybrid Catalyst for the Selective Synthesis of Fuel Range Hydrocarbons by the Fischer–Tropsch Method. Kinetics and Catalysis, 62(1), 172-180.
Yakovenko, R. E., Savost'yanov, A. P., Narochniy, G. B., Soromotin, V. N., Zubkov, I. N., Papeta, O. P., Svetogorov, R. D. & Mitchenko, S. A. (2020). Preliminary evaluation of a commercially viable Co-based hybrid catalyst system in Fischer–Tropsch synthesis combined with hydroprocessing. Catalysis Science & Technology, 10(22), 7613-7629.
Savost’yanov, A. P., Eliseev, O. L., Yakovenko, R. E., Narochniy, G. B., Maslakov, K. I., Zubkov, I., Soromotin, V. N., Kozakov, A. T., Nicolskii, A. V., & Mitchenko, S. A. (2020). Deactivation of Co-Al₂O₃/SiO₂ Fischer–Trospch Synthesis Catalyst in Industrially Relevant Conditions. Catalysis Letters, 150(7), 1932-1941.
Savost’yanov, A. P., Yakovenko, R. E., Narochnyi, G. B., Zubkov, I. N., & Nepomnyashchikh, E. V. (2020). Development of a Highly Productive Supported Bifunctional Catalyst Based on Zeolite ZSM-5 for the Production of Fuel Grade Hydrocarbon Fractions from CO and H₂. Petroleum Chemistry, 60, 577-584.
Sulima, S. I., Bakun, V. G., Saliev, A. N., Shabel’skaya, N. P., Zubkov, I. N., & Soromotin, V. N. (2020). Influence of Manganese on the Catalytic Properties and Structure of the Active Surface of a Cobalt Fischer–Tropsch Catalyst. Petroleum Chemistry, 60, 563-570.
Yakovenko, R. E., Il’in, V. B., Savost’yanov, A. P., Zubkov, I. N., Dul’nev, A. V., & Semenov, O. A. (2020). Conversion of Liquefied Hydrocarbon Gases on Industrial Nickel Catalysts. Catalysis in Industry, 12(2), 119-126.
Savost’yanov, A. P., Narochnyi, G. B., Yakovenko, R. E., Mitchenko, S. A., & Zubkov, I. N. (2018). Enhancement of the Fischer–Tropsch process for producing long-chain hydrocarbons on a cobalt–alumina–silica gel catalyst. Petroleum Chemistry, 58, 76-84.
Yakovenko, R. E., Zubkov, I. N., Narochniy, G. B., Papeta, O. P., Denisov, O. D., & Savost’yanov, A. P. (2020). Effect of Re and Al₂O₃ Promotion on the Working Stability of Cobalt Catalysts for the Fischer–Tropsch Synthesis. Kinetics and Catalysis, 61(2), 310-317.
Savost’yanov, A. P., Yakovenko, R. E., Narochnyi, G. B., Zubkov, I. N., Sulima, S. I., Soromotin, V. N., & Mitchenko, S. A. (2020). Deactivation of a Commercial Co–Al₂O₃/SiO₂ Catalyst in Fischer–Tropsch Synthesis under High-Pressure and Gas Recycling Conditions. Petroleum Chemistry, 60(1), 81-91.
Yakovenko, R. E., Zubkov, I. N., Narochnyi, G. B., Nekroenko, S. V., & Savost’yanov, A. P. (2019). Effect of the Type of the Cobalt-Containing Component of a Composite Catalyst on the One-Stage Synthesis of Liquid Hydrocarbons from СО and Н₂. Catalysis in Industry, 11(4), 286-294.
Yakovenko, R. E., Narochnyi, G. B., Zubkov, I. N., Nepomnyashchikh, E. V., & Savost’yanov, A. P. (2019). Effect of the Composition of Synthesis Gas on a Combined Process of the Synthesis and Hydrofining of Hydrocarbons from CO and H₂. Kinetics and Catalysis, 60(2), 212-220.
Savost’yanov, A. P., Narochnyi, G. B., Yakovenko, R. E., Soromotin, V. N., & Zubkov, I. N. (2018). Effect of Diffusion Limitations on the Fischer–Tropsch Synthesis of Long-Chain Hydrocarbons on a Cobalt–Alumina Silica Gel Catalyst. Catalysis in Industry, 10(3), 181-184.
Savost’yanov, A. P., Yakovenko, R. E., Saliev, A. N., Narochnyi, G. B., Mitchenko, S. A., Zubkov, I. N., Soromotin, V. N., & Kirsanov, V. A. (2018). Supported Bifunctional Cobalt Catalysts for CO and H₂ Conversion to Fuel Fractions of Hydrocarbons. Petroleum Chemistry, 58(5), 434-443.
Savost’yanov, A. P., Narochnyi, G. B., Yakovenko, R. E., Mitchenko, S. A., & Zubkov, I. N. (2018). Enhancement of the Fischer–Tropsch process for producing long-chain hydrocarbons on a cobalt–alumina–silica gel catalyst. Petroleum Chemistry, 58, 76-84.
Savost'yanov, A. P., Narochnyi, G. B., Yakovenko, R. E., Saliev, A. N., Sulima, S. I., Zubkov, I. N., Nekroenko, S. V., & Mitchenko, S. A. (2017). Synthesis of Low-Pour-Point Diesel Fuel in the Presence of a Composite Cobalt-Containing Catalyst. Petroleum Chemistry, 57(12).
Narochnyi, G. B., Savost’yanov, A. P., Zubkov, I. N., Dul’nev, A. V., & Yakovenko, R. E. (2022). Study of the NIAP-06-06 Zinc–Copper Catalyst for the Steam Reforming of Carbon Monoxide in the Synthesis of Methanol. Catalysis in Industry, 14(2), 189-194.
Zubkov, I. N., Soromotin, V. N., Savost’yanov, A. P., Mitchenko, S. A., & Yakovenko, R. E. (2022). Production of Alcohols and Olefins from CO and H₂ on a Cobalt Catalyst at High Pressures and in the Gas Circulation Mode. Kinetics and Catalysis, 63(2), 218-225.
Yakovenko, R. E., Zubkov, I. N., Bakun, V. G., Papeta, O. P., & Savostyanov, A. P. (2022). Effects of SiO₂/Al₂O3 Ratio in ZSM-5 Zeolite on the Activity and Selectivity of a Bifunctional Cobalt Catalyst for Synthesis of Low-Pour-Point Diesel Fuels from CO and H₂. Petroleum Chemistry, 62(1), 101-111.

Links to identifiers:

Scopus: 57200515605

ResearcherID: T-7749-2019

ORCID: 0000-0003-0828-3159

e-Library: 909598

SCOPUS

Papeta Olga Pavlovna

Post:

Research engineer of the laboratory “Catalysts and technologies for processing carbon-containing materials”

Education:

2013-2017: student, Department of "Biochemistry", Faculty of Chemistry, DonNU.
2018-2020: master's student, Department of Chemical Technologies, Faculty of Technology, SRSPU(NPI).
from 2020 to the present: postgraduate student, Department of Chemical Technologies, Faculty of Technology, SRSPU(NPI).

Qualification:

2017: bachelor in the field of study 04.03.01 "Chemistry".
2020: master's degree in the direction of 18.04.01 "Chemical technology", orientation (profile) "Chemical technology (diploma with honors).

Topic of dissertation research:

Development of technology of mesoporous zeolite-containing catalyst for the synthesis of fuel-series hydrocarbons from CO and H₂

Professional activity:

from 01.06.2020 to the present: research engineer of the laboratory "Catalysts and technologies for processing carbon-containing materials"

Scientific interests:

Organic chemistry, inorganic chemistry, heterogeneous catalysis, Fischer-Tropsch synthesis.

Awards and achievements:

IV All-Russian Student Scientific and Practical Conference "Chemistry: achievements and prospects", May 24-25, 2019, Rostov-on-Don (Diploma of the III degree for an oral report in the section "Chemistry of new materials").
Regional scientific and technical conference (competition of scientific and technical works) of students, postgraduates and young scientists of universities of the Rostov region "Student scientific spring 2019", May 17, 2019, Novocherkassk (Diploma II place in the competition of oral reports).New catalytic processes of deep processing of hydrocarbon raw materials and biomass, The Fourth School of Young Scientists November 9 – 12, 2020 Krasnoyarsk, Russia (Diploma of the III degree).
VII All-Russian Student Scientific and Practical Conference "Chemistry: achievements and prospects", May 19-21, 2022, Rostov-on-Don (I degree diploma for oral presentation in the section "Chemistry and Technology of Materials").

Executor in projects:

2020-2022: State Task No. 2019-0990, "Catalytic processing of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils"

Major publications:

Yakovenko R.E.; Agliullin M.R.; Zubkov I.N.; Papeta O.P.; Khliyan G.T.; Savostyanov A.P. Bifunctional Cobalt-Containing Catalytic Systems Based on SAPO-11 Molecular Sieves in Fischer–Tropsch Synthesis of Fuels. Petroleum Chemistry. 2021. DOI: 10.1134/S0965544121030063
Yakovenko R.E.; Zubkov I.N.; Narochniy G.B.; Papeta O.P.; Denisov O.D.; Savostyanov A.P. Effect of Re and Al2O3 Promotion on the Working Stability of Cobalt Catalysts for the Fischer–Tropsch Synthesis. Kinetics and Catalysis. 2020. DOI: 10.1134/S0023158420020111
Yakovenko R.E.; Zubkov I.N.; Savostyanov A.P.; Soromotin V.N.; Krasnyakova T.V.; Papeta O.P.; Mitchenko S.A. Hybrid Catalyst for the Selective Synthesis of Fuel Range Hydrocarbons by the Fischer–Tropsch Method. Kinetics and Catalysis. 2021. DOI: 10.1134/S0023158421010122
Yakovenko R.E.; Savost'yanov A.P.; Narochniy G.B.; Soromotin V.N.; Zubkov I.N.; Papeta O.P.; Svetogorov R.D.; Mitchenko S.A. Preliminary evaluation of a commercially viable Co-based hybrid catalyst system in Fischer-Tropsch synthesis combined with hydroprocessing. Catalysis Science and Technology. 2020. DOI: 10.1039/d0cy00975j – Q1
Yakovenko R.E.; Bakun V.G.; Zubkov I.N.; Narochnyi G.B.; Papeta O.P.; Savostyanov A.P. Effect of the Means Used to Synthesize Bifunctional Fischer–Tropsch Catalysts on the Composition and Properties of Synthetic Fuels. Catalysis in Industry. 2021.DOI: 10.1134/S2070050421010116

Links to identifiers:

Scopus: 57216389274

ResearcherID: ADL-3624-2022

SCOPUS

Yatsenko Alexey Nikolaevich

Contacts:

Phone: +79185875674
Email: alexyats-npi@yandex.ru

Post:

Engineer of the SUC "Nanotechnology"

Education:

2004-2009: student, Department of "General and Applied Physics", Faculty of Physics and Mathematics, SRSPU (NPI).
2009-2012: postgraduate student, Department of "General and Applied Physics", Faculty of Physics and Mathematics, SRSPU (NPI).

Qualification:

2009: engineer in the specialty "Microelectronics and solid-state electronics".
2017: candidate of Technical Sciences 05.27.06 "Technology and equipment for the production of semiconductors, materials and electronic devices".

Topic of dissertation research:

Thermal crystallization of germanium on silicon from a discrete liquid-phase source

Professional activity:

06.2012-02.2018: assistant of the Department of "Nanotechnology in Electronics".
02.2018-08.2019: associate Professor of the Department of Nanotechnology and New Materials.
from 04.2016 to the present: engineer of the SUC "Nanotechnology".
from 08.2019 to the present: associate Professor of the Department of Physics and Photonics.

Scientific interests:

Thin film technology; physical research methods in materials science

Executor in projects:

2020-2022: the program "UMNIK", "Development of technology for the formation of metal layers on large-area substrates used in the construction of organic solar cells as a negative electrode" (713GUTSES8-D3/63684 dated December 15, 2020).

Major publications:

Chebotarev S. N., Yatsenko A. N., Lozovskii V. N., Mohamed A.A., Erimeev G. A. (2017). Zone thermal recrystallization of thin layers from a discrete source // ARPN Journal of Engineering and Applied Science. – 2017. – №5(12). – P. 1453– 1457.
Shabelskaya N.P., Yatsenko E.A., Medvedev R.P., Yatsenko A.N. (2020). The use of foam glass based on ash and slag waste and cullet for the production of catalytically active compositions of Inorganic materials. - 2020. - Vol. 56, No. 7. - pp. 808-812.
Yatsenko A. N., Lozovsky V. N., Chebotarev S. N., Lunin L. S., Pashchenko A. S., Lunina M. L., Eremeev G. A.. (2016). The method of zone thermal recrystallization from a discrete source / // Izvestiya SFU. Technical sciences. – 2016. – № 9(182). – Pp. 134-144.
Yatsenko A. N., Lozovsky V. N., Chebotarev S. N., Lunin L. S., Pashchenko A. S., Lunina M. L., Eremeev G. A.. (2016). The method of zone thermal recrystallization from a discrete source / // «Izvestiya» SFU. Technical sciences. – 2016. – № 9(182). – Pp. 134-144.
Alfimova D.L., Lunina M.L., Lunin L.S. Yatsenko A.N. and others. (2020). The effect of bismuth on the structural perfection of elastically stressed epitaxial AlGaInSbBi layers grown on INSB substrates. Surface. X-ray, synchrotron and neutron studies. - 2020. - No. 8. - pp. 20-25.
Sergeenko S.N., Vasiliev A.N., Marakhovsky O.A., Yatsenko A.N. (2020) Multicriteria optimization of obtaining hot–compacted Pb - C composite materials based on chips of recycled electrodes of non-ferrous metals batteries. - 2020. - № 11 (935). - Pp. 68-77
Sergeenko S.N., Vasiliev A.N., Vasilenko D.V., Yatsenko A.N. (2021). New technologies for obtaining lead-acid battery electrode materials with increased reliability (review). News of Perm National Research Polytechnic University. Mechanical engineering, materials science. - 2021. - Vol. 23, No. 4. - pp. 56-67
Petrenko D.S., Klushin V.A., Faddeev N.A. Yatsenko A.N. and others. Composite materials based on bio-renewable polyethermaleinates. News of higher educational institutions. The North Caucasus region. Technical sciences. - 2021. - No. 4. - pp. 93-99
Arustamyan D. A., Chebotarev S. N., Lunina M. L., Sysoev I. A., Pashchenko A. S., Kazakova A. E., Yatsenko, A. N. Dependence of the characteristics of AlGaAs solar cells on the thickness and doping level of the base / // News of the North Caucasus Federal University – 2016. - № 4(55). – Pp. 7-12.
Lozovsky V. N., Lozovsky S. V., Yatsenko A. N., Obtaining Ge(x)Si(1-x) layers on silicon by the method of vacuum micro-sized growth cells // News of the North Caucasus Region. Technical sciences. – 2012. – № 3(166). – Pp. 93-99.
Lozovsky V. N., Lozovsky S. V., Valov G. V., Yatsenko A. N.. (2011). Islet structures obtained by the method of micro-sized growth cells / // News of the North Caucasus Region. Technical sciences. – 2011. – № 6(164). – Pp. 128-131.

Links to identifiers:

Scopus: 57221290546

ORCID: 0000-0002-0405-6322

SCOPUS

Krasnyakova Tatyana Vadimovna

Contacts:

Phone: +79381368385
Email: ktv_@list.ru

Post:

Engineer of the Research Institute "Nanotechnology and New Materials"

Scientific interests:

Catalysis; organometallic chemistry; mechanochemistry

Major publications:

Khazipov O. V., Solvent-specific reduction of Na2PtI6 in acetone / Khazipov O. V., Merzlikina M. A., Nikytenko D. V., Khomutova E. V., Krasnyakova T. V., Mitchenko S. A. // Russian Journal of General Chemistry. ‒ 2017. ‒ T. 87, № 1. ‒ C. 128-131.
Khazipov O. V., Catalytic etherification of alcohols in Shilov system: C-O versus C-H bond activation / Khazipov O. V., Nykytenko D. V., Krasnyakova T. V., Vdovichenko A. N., Fuentes Frias D. A., Mitchenko S. A. // Journal of Molecular Catalysis A: Chemical. ‒ 2017. ‒ T. 426. ‒ C. 490-498.
Krasnyakova T. V., Catalytic hydrochlorination of acetylene on PdCl2/C supported catalysts: Kinetic isotopic effect of HCl/DCl, stereoselectivity, and mechanism / Krasnyakova T. V., Nikitenko D. V., Khomutova E. V., Mitchenko S. A. // Kinetics and Catalysis. ‒ 2017. ‒ T. 58, № 5. ‒ C. 533-540.
Khazipov O. V., Successive alkylation of PtII by RI to form bis-organoplatinum (IV) derivatives as key steps for cross-electrophile coupling / Khazipov O. V., Krasnyakova T. V., Nikitenko D. V., Merzlikina M. A., Khomutova E. V., Mitchenko S. A. // Journal of Organometallic Chemistry. ‒ 2018. ‒ T. 867. ‒ C. 333-341.
Krasnyakova T. V., Catalytic Hydromethoxylation of Acetylene over Pre-Activated K2PdCl4 / Krasnyakova T. V., Nikitenko D. V., Khazipov O. V., Mitchenko S. A. // Kinetics and Catalysis. ‒ 2020. ‒ T. 61, № 6. ‒ C. 879-885.
Krasnyakova T. V., Mechanisms of the Catalytic Hydrochlorination of Acetylene: Active Sites, Isotope Effects, and Stereoselectivity / Krasnyakova T. V., Nikitenko D. V., Mitchenko S. A. // Kinetics and Catalysis. ‒ 2020. ‒ T. 61, № 1. ‒ C. 58-79.
Krasnyakova T. V., Effect of Mechanochemical Pretreatment on the Photocatalytic Activity of Bismuth Ferrite / Krasnyakova T. V., Yurchilo S. A., Morenko V. V., Nosolev I. K., Glazunova E. V., Khasbulatov S. V., Verbenko I. A., Mitchenko S. A. // Kinetics and Catalysis. ‒ 2020. ‒ T. 61, № 3. ‒ C. 384-389.
Yakovenko R. E., Hybrid Catalyst for the Selective Synthesis of Fuel Range Hydrocarbons by the Fischer–Tropsch Method / Yakovenko R. E., Zubkov I. N., Savost’yanov A. P., Soromotin V. N., Krasnyakova T. V., Papeta O. P., Mitchenko S. A. // Kinetics and Catalysis. ‒ 2021. ‒ T. 62, № 1. ‒ C. 172-180.
Krasnyakova T.V., Catalysis of Electrophilic C(sp2)–C(sp2) Coupling by Platinum(II) Iodide Complexes / T.V. Krasnyakova, D.V. Nikitenko, V.V. Morenko, S.A. Mitchenko // Kinetics and Catalysis. – 2022. – Vol. 63, No. 3. – pp. 270–278. DOI: 10.1134/S0023158422030053

Links to identifiers:

Scopus ID: 15132176400

Web of Science ID: AAE-5437-2019

ORCID: 0000-0003-2556-1966

SCOPUS

Chemes Anastasia Alexandrovna

Contacts:

Телефон: +7 (8635) 25-53-36
Email: niintnm@gmail.com

Post:

Leading engineer of the laboratory "Catalysts and technologies for processing carbon materials"

Education:

2019 - Bachelor's degree in Biotechnology (DSAU).
2021 - Master's degree in Chemical Technology (DSTU).
from 2022 to the present: postgraduate student of SRSPU (NPI) in the field of "Chemical technologies".

Qualification:

Postgraduate student of SRSPU (NPI) in the field of "Chemical technologies"

Scientific interests:

Heterogeneous catalysis, Fischer-Tropsch synthesis, physico-chemical research methods

Major publications:

Electrodeposition kinetics and surface morphology of NI-B-UDD composite coating/Degtyar L., Zhukova I.Yu., Kuts A.// E3S Web of Conferences.-2021/-Vol.273.- Article 04015. – (14th International Scientific and Practical Conference on State and Prospects for the Development of Agribusiness ( INTERAGROMASH 2021), Rostov-on-Don, February 24-26, 2021)
The study of the kinetics of electrodeposition of a functional coating from a nickel-plating electrolyte-colloid /Degtyar L.A., Zhukova I.Yu., Ostapenko D.A., Kutz A.A.(Chemes A.A.)//Izvestia of Higher Educational institutions. The North Caucasus region. Technical sciences.-2020.-№1 (205). – pp.61-67
Optimization of sulfate electrolyte-galvanizing colloid and structural properties of coatings/ Kutz A.A.(Chemes A.A.), Degtyar L.A., Abdullaev D.A., Zhukova I.Yu. // Electrochemistry of organic compounds. ECHOS-2022. Abstracts of the XX All-Russian Conference. M.I. Platov South Russian State Polytechnic University (NPI), Federal Research Center for Problems of Chemical Physics and Medical Chemistry of the Russian Academy of Sciences, N.D. Zelinsky Institute of Organic Chemistry of the Russian Academy of Sciences, Tula State University. - 2022. – p.108

Zubkova Maria Alekseevna

Contacts:

Phone: +79188523416
Email: timoxmasha14@mail.ru

Post:

Engineer of the laboratory “Catalysts and technologies for processing carbon-containing materials”

Education:

2020-2024: Bachelor's degree, Department of Chemical Technology, Faculty of Technology, SRSPU (NPI)
2023-2024: Diploma of professional retraining, specialist in the field of safety of technological processes and production, Faculty of Technology, SRSPU (NPI)
2024-present: Master's degree student, Department of Chemical Technology, Faculty of Technology, SRSPU (NPI)

Qualification:

2020-2024: Bachelor's degree, Department of Chemical Technology, Faculty of Technology, SRSPU (NPI)
2023: worker's profession, employee position, 4th category laboratory assistant of chemical analysis
2023-2024: Diploma of professional retraining, specialist in the field of safety of technological processes and production, Faculty of Technology, SUSU(NPI)
2024-present: Master's student, Department of Chemical Technologies, Faculty of Technology, SUSU(NPI)

Professional activity:

04.2022 -01.2023. - technician of the laboratory "Catalysts and technologies for processing carbon-containing materials"
01.2023-08.2024 - laboratory assistant of the laboratory "Catalysts and technologies for processing carbon-containing materials"
08.2024-present - engineer of the laboratory "Catalysts and technologies for processing carbon-containing materials"

Scientific interests:

Heterogeneous catalysis; catalysts (contact substances); analytical chemistry; physico-chemical research methods; petrochemistry

Participation in projects:

2022: State Task No. 2019-0990, «Catalytic conversion of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils»

Major publications:

Saliev A.N. Conversion of CO₂ into synthesis gas on a copper-containing catalyst / Ilyin V.B., Demchenko S.S., Timokhina M.A., Posemeynova A.S., Yakovenko R.E. // Hydrogen Mayevka: abstracts of the IV Workshop, Apr 28- May 2, 2022, Mezmai - Novocherkassk: Lik Publishing House, 2022. - p. 36. - 0.06.
Zubkov I.N., Zubkova M.A., Denisov O.D., Savostyanov A.P., Yakovenko R.E., et al. // Study of the influence of gas circulation rate on the formation of C5-C18 alkenes in Fischer-Tropsch synthesis; Catalysis in industry. 2024. - V. 24 (2). - P. 34-42

Bozhenko Ekaterina Aleksandrovna

Post:

Technician of the laboratory "Catalysts and technologies for processing carbon materials"

Education:

2019: Bachelor's degree in Chemical Technology, DSTU.
2021: Master's degree in Chemical Technologies, DSTU.
from 2021 to the present: postgraduate student of SRSPU (NPI) in the field of "Chemical technologies".

Qualification:

Postgraduate student of SRSPU (NPI) in the field of "Chemical technologies"

Scientific interests:

Oil and gas refining technologies, heterogeneous catalysis

Major publications:

Review of existing technologies and prospects for the development of hydrocarbon synthesis using cobalt catalysts / Bozhenko E.A., Sobchinsky A.I. // Actual problems of science and technology. 2020: materials of the National Scientific and Practical Conference, March 25-27, 2020 / DSTU. – Rostov-on-Don: DSTU, 2020. - pp.1854-1856.
Existing technologies and prospects for the development of hydrocarbon synthesis using cobalt catalysts / Bozhenko E.A., Sobchinsky A.I., Zharkova M.G., Olshevskaya A.V. // Innovative technologies in science and education (ITNO-2020) VIII International Scientific and Practical Conference, using remote technologies within the demonstration site "Day of the Don Field", Divnomorskoe village, 19-30 Aug. 2020 / Don. state Technical University. [and etc]. – Rostov-on-Don: DSTU-Print, 2020. – pp. 492-496.
Impact of environmental problems on human health and economy in the Russian Federation / Kirill Kobzev, Nataliya Kobzeva, Valeriia Chegge, Ekaterina Bozhenko, Maria Balinskaya, Sirun Saakian and Dzhuletta Sarkisian // E3S Web of Conferences. – 2020. – Vol. 217. – Article 11013 – 11 p. – (International Scientific and Practical Conference “Environmental Risks and Safety in Mechanical Engineering” (ERSME-2020), Rostov-on-Don, Russia, October 20-23, 2020).
Ecological problems in the Russian Federation. Impact on the health of people and the country's economy / Kirill Kobzev, Nataliya Kobzeva, Valeriia Chegge, Ekaterina Bozhenko, Maria Balinskaya, Sirun Saakian and Dzhuletta Sarkisian // E3S Web of Conferences. – 2020. – Vol. 217. – Article 11001 – 11 p. – (International Scientific and Practical Conference “Environmental Risks and Safety in Mechanical Engineering” (ERSME-2020), Rostov-on-Don, Russia, October 20-23, 2020).
The use of catalysts in the production of fuel for agricultural machinery / Alexander Sobchinsky, Ekaterina Bozhenko, Maria Zharkova, Valeriia Chegge // XIV International Scientific Conference “INTERAGROMASH 2021”. – Cham: Springer, 2021. – Precision Agriculture and Agricultural Machinery Industry, Volume 2.
The use of catalysts in the production of synthetic fuels / Bozhenko E.A., Sobchinsky A.I. // Actual problems of science and technology. 2021: materials of the All-Russian (National) Scientific and Practical Conference, Rostov-on-Don, March 17-19, 2021 / Don State Technical University– Rostov-on-Don: DSTU, 2021. – p.1088-1090.
Research of foreign experience in designing and building waste processing plants: architectural techniques and designs, environmental and economic efficiency / Vyborova N.A., Kislyakova A.A., Chegge V.S., Sobchinsky A.I., Bozhenko E.A. // XIV International scientific and practical conference "The state and prospects of development of the agro-industrial complex" (Conference "INTERAGROMASH 2021"). - Don State Technical University– Rostov-on-Don: DSTU, 2021. – pp. 439-444.

Telegin Daniil Valerievich

Contacts:

Phone: +79892451643
Email: ttelas@mail.ru

Post:

Technician of the laboratory “Catalysts and technologies for processing carbon-containing materials”

Education:

2017-2021: student, Department of Oil and Gas Refining, Krasnodar College of Management, Engineering and Technology.
from 2022 to the present: student, Department of "Chemical Technologies", Faculty of Technology, SRSPU (NPI).

Qualification:

2021: technologist in the field of study 18.02.09 "Oil and gas processing", (diploma with honors)

Professional activity:

10.04.2019-30.08.2019: mechanic repairman of oilfield equipment Ufa branch of LLC "RN-Repair NPO".
25.01.2021-10.09.2021: the operator of the solution and salt node of JSC "KNG-Mashzavodservice".
from 04.05.2022 to the present: technician of the Research Institute “Nanotechnology and new materials”.

Scientific interests:

Heterogeneous catalysis; catalysts (contact substances); hydrogen energy, synthetic oil

Participation in projects:

2020-2022: State task No. 2019-0990, "Catalytic processing of carbon-containing materials into synthetic motor fuels, isoparaffin and poly-alpha-olefin oils"

Novikova Irina Andreevna

Contacts:

Phone: +79189366591

Post:

Technician of the laboratory “Catalysts and technologies for processing carbon-containing materials”

Education:

2018 – 2022: bachelor's degree, Department of Chemical Technologies, Faculty of Technology, SRSPU (NPI).
from 2022 to the present: master's student, Department of Chemical Technologies, Faculty of Technology, SRSPU (NPI).

Qualification:

2022: bachelor's degree in the field of study 18.03.01 "Chemical technology","Chemical technology of inorganic and organic substances" (diploma with honors).
2022: additional professional education "Operator of preparation of raw materials and release of semi-finished products and products " of the 4th category.

Professional activity:

from 10.2022 to the present: technician of the laboratory “Catalysts and technologies for processing carbon-containing materials”

Scientific interests:

Heterogeneous catalysis; catalysts (contact substances); analytical chemistry; physico-chemical research methods; primary distillation; isodeparaffinization; hydrocracking; synthetic fuel

Marchenko Victoria Sergeevna

Contacts:

Телефон: +7 (8635) 25-53-36
Email: niintnm@gmail.com

Post:

A laboratory assistant. Laboratory "Catalysts and Technologies for processing carbon materials"

Education:

2021 – present – student, Department of Chemical Technologies, Faculty of Technology, Platov South-Russian State Polytechnic University (NPI)

Qualification:

Student, Department of Chemical Technologies, Faculty of Technology, Platov South-Russian State Polytechnic University (NPI)

Scientific interests:

Heterogeneous catalysis, catalysts (contact substances), Fischer-Tropsch synthesis

Ponomarev Denis Alekseevich

Contacts:

Телефон: +7 (8635) 25-53-36
Email: niintnm@gmail.com

Post:

A laboratory assistant. Laboratory "Catalysts and Technologies for processing carbon materials"

Education:

2022 – present – student, Department of Chemical Technologies, Faculty of Technology, Platov South-Russian State Polytechnic University (NPI)

Qualification:

Student, Department of Chemical Technologies, Faculty of Technology, Platov South-Russian State Polytechnic University (NPI)

Scientific interests:

Heterogeneous catalysis, catalysts (contact substances), Fischer-Tropsch synthesis

Ponomarev Danila Alekseevich

Contacts:

Телефон: +7 (8635) 25-53-36
Email: niintnm@gmail.com

Post:

A laboratory assistant. Laboratory "Catalysts and Technologies for processing carbon materials"

Education:

2022 – present – student, Department of Chemical Technologies, Faculty of Technology, Platov South-Russian State Polytechnic University (NPI)

Qualification:

Student, Department of Chemical Technologies, Faculty of Technology, Platov South-Russian State Polytechnic University (NPI)

Scientific interests:

Heterogeneous catalysis, catalysts (contact substances), Fischer-Tropsch synthesis

Marusya

Post:

Responsible for deratization of premises

Laboratory team