The Laboratory of Kinetics and Catalysis at the Chemistry Department of Moscow State University was founded in 1929 to expand education at undergraduate and graduate levels in the general areas of physical chemistry and specifically of catalysis as well as to develop research in surface science and kinetics of heterogeneous catalytic reactions.

Now, its activity lies mainly in the field of zeolites, oxides, metallocomplex and enzymatic catalysis. It aims at performing high-level fundamental research capable of industrial integration and development.

  • Irina I. Ivanova, Professor, Head of the Laboratory
  • Aleksey K. Buryak, Professor, Corresponding Member of RAS
  • Sergei N. Lanin, Professor
  • Pavel N. Nesterenko, Professor
  • Tatyana M. Roshchina, Professor
  • Leonid E. Kitaev, Associate Professor
  • Ivan A. Kasyanov, Associate Professor
  • Elena E. Knyazeva, Leading Researcher
  • Yury G. Kolyagin, Leading Researcher
  • Olga A. Ponomareva, Leading Researcher
  • Andrey G. Popov, Leading Researcher
  • Andrey V. Smirnov, Leading Researcher
  • Irina F. Moskovskaya, Senior Researcher
  • Larisa F. Atyaksheva, Senior Researcher
  • Artem E. Vinogradov, Researcher
  • Irina V. Dobryakova, Researcher
  • Daniil A. Fedosov, Researcher
  • Liudmila I. Rodionova, Researcher
  • Angelina A. Maerle, Junior Researcher
  • Boris A. Kolozhvari, Junior Researcher
  • Valeriya A. Vorobkalo, Junior Researcher
  • Ksenia S. Lanina, Junior Researcher
  • Andrey V. Efimov, Junior Researcher
  • Dmitry S. Zasukhin, Junior Researcher
  • Alexander I. Nikiforov, Junior Researcher
  • Alexander V. Shkuropatov, Junior Researcher
  • Anna I. Bulygina, Junior Researcher
  • Vitaly L. Sushkevich, Junior Researcher
  • Olga N. Fedyanina, Engineer
  • Ivan A. Vostrov, Engineer
  • Victor R. Drozhzhin, Technician
  • Victoria I. Nazarova, Technician

Objectives

  • Development of efficient catalysts, sorbents and other functional materials based on molecular sieves, in particular, zeolites and zeotypes, mesoporous and micro-mesoporous materials, oxides, MOF-s, zeolite-encapsulated metallo-complexes, oxide clusters and immobilized enzymes;
  • Characterization of the physico-chemical and catalytic properties of novel materials;
  • Development of novel processes for the conversion of oil and on-oil feedstocks into valuable products;
  • In situ investigations of the mechanisms of synthesis and catalysis.

Experience and skills

The laboratory of Kinetics and Catalysis is one of the leading research groups in Russian Federation specialized in the field of catalysis over molecular sieves. The laboratory staff have great experience in all kinds of research connected to molecular sieve materials – from synthesis to catalytic evaluation.

In the field of molecular sieves synthesis the research staff of the laboratory have worked through and mastered reproducible techniques for the preparation of various structure types of zeolites, microporous crystal silicoaluminophosphates and mesoporous materials. Several novel approaches have been proposed in the last years for the synthesis of a new classes of molecular sieves: micro-mesoporous materials,; metal containing zeolites; nanocrystalline zeolites, binderless zeolite materials and etc.

New highly-efficient catalysts for various processes have been developed in the laboratory in the last years, including catalysts for such processes as alkylation of benzene with propylene, alkylation of aniline with methanol, hydroalkylation of benzene with acetone, disproportionation of toluene, synthesis isoprene from formaldehyde and isobutylene, synthesis of butadiene from ethanol, conversion of 2,3-butanediol, synthesis of isobutylene from ethanol, synthesis of butanol from ethanol, synthesis of isobutylene from acetone and ethanol, synthesis of lower olefins from methanol, dehydrogenation of alkanes, epoxidation of propylene, oligomerization butane-butylene fraction, hydrocracking of vacuum gas oil.

Besides the applied sciences, laboratory staff are involved in fundamental mechanistic studies of heterogeneous catalytic reactions using IR and NMR spectroscopy in situ. In this field the research group is considered to be among the leading groups in Russia and the world. In particular, the significant contribution has been made to the investigation of the mechanisms of the following industrially important processes: alkanes aromatization, hexane isomerization, benzene alkylation with propane, toluene, aniline and phenol alkylation with methanol, transalkylation of alkylaromatic hydrocarbons, isoprene synthesis from isobutylene and formaldehyde oligomerization of olefins, synthesis of butadiene from ethanol.

In the last years the research group is involved in intensive investigations related to mechanistic studies of hydrothermal synthesis of zeolites. A unique equipment for the preparation of NMR cells of autoclave type, adapted for carrying out MAS NMR experiments was designed and an its ability to conduct the studies of hydrothermal zeolite synthesis has been demonstrated.

  • equipment for the molecular sieve synthesis and post-synthesis treatment (autoclaves of a different volume from 15ml up to 2L and thermochambers for the hydrothermal synthesis, SNOL heating devices, IKAMAG magnetic and WiseStir mechanical stirrers, HERMLE Z324 laboratory centrifuge, Shimadzu AB 220 and ACCULAB LA-110 high-accuracy weighing machines etc.);
  • Bruker AVANCE-II 400MHz NMR-spectrometer with 9.4 T field, MAS-II magic angle rotation system, three radio frequency channels (H-F/ X/Y) per 1 kW of power each (rotor diameters 4 and 7 mm), capable of performing measurements up to 350 oC.
  • X-ray diffractometer BRUKER D2 PHASER for x-ray phase monitoring of the crystal structure;
  • FT IR spectrometers Protégé 460 and Nicolet iS10 MCT;
  • IR-cell to study the mechanisms of in situ reactions;
  • Horiba LabRAM HR EVOLUTION Raman spectrometer equipped with 355 nm and 633 nm lasers;
  • Raman cell Harrick HVC-MRA-5 to study the mechanisms of in situ reactions;
  • Nicolet 380 FTIR-spectrometer;
  • EVOLUTION 600 UV-Vis spectrometer;
  • ThermoScientific ARL PERFORM’X WDXRF X-ray fluorescence analyzer with 2.5 kW operating rhodium tube;
  • High resolution electron microscope — SEM JSM-639OLA with the attachment EDX EX ** BU for studying the morphology of microparticles;
  • Micrometrics ASAP-2000 N sorptometer for structure and surface characterization;
  • USGA-101 universal sorption gas-analyzer for thermo-programmed desorption (TPD) and reduction (TPR) measurements;
  • SDTQ 600 differential scanning calorimeter-derivatograph for thermal decomposition of solids investigation;
  • unique laboratory catalytic setups for continuous and batch catalytic reactions including high pressure equipment;
  • Chromatech Crystal-2000M GC with a number of chromatographic columns;
  • Thermo Trace GC Ultra GC-MS with Thermo DSQ-II quadrupole mass-spectrometer for analysis of catalytic reaction products;

Besides that MSU laboratory has an access to a number of instruments and equipment of MSU Collective Use Center «Novel preparation technology and comprehensive examination of nanostructured materials»: JSM-639OLA high resolution electron microscope with EDX EX-230**BU module for morphology investigation of microparticles; JEM-2100FS transmission electron microscope (14 nm resolution, accelerating voltage up to 200 kEV, x50 to x1,5M magnification) for the size evaluation of nanoparticles, etc.

  1. Konnov S. V., Pavlov V. S., Ivanova I. I. Effect of coating with silica on acidic and catalytic properties of SAPO-18 in MTO conversion // Microporous and Mesoporous Materials. 2020. V. 300. P. 110158-110161. DOI: 10.1016/j.micromeso.2020.110158
  2. Kots P. A., Zabilska A. V., Ivanova I. I. Selective Self-Condensation of Butanal over Zr-BEA Zeolites // ChemCatChem. 2020. V. 12. № 1. P. 248-258. DOI: 10.1002/cctc.201901556
  3. Volkov R. L., Kukin V. N., Kots P. A., Ivanova I. I., Borgardt N. I. Complex Pore Structure of Mesoporous Zeolites: Unambiguous TEM Imaging Using Platinum Tracking // Chemphyschem: a European journal of chemical physics and physical chemistry. 2020. V. 21. P. 275-279. DOI: 10.1002/cphc.201901208
  4. T.O. Bok, E.P. Andriako, E.E. Knyazeva and I. I. Ivanova. Engineering of zeolite BEA crystal size and morphology via seed-directed steam assisted conversion // RSC Adv. 2020. V. 10. P. 38505- 38514. DOI: 10.1039/d0ra07610d
  5. E. Naranov, O. Golubev, K. Zanaveskin, A. Guseva, P. Nikulshin, Y. Kolyagin, A. Maximov, and E. Karakhanov. Ni-based nanoparticles on mesoporous silica supports for single-stage arsenic and chlorine removal during diesel fraction hydrotreating // ACS Omega. 2020. V. 5. № 12. P. 6611–6618.
  6. N. N. Danchenko, Z. S. Artemyeva, Y. G. Kolyagin, and B. M. Kogut. Features of the chemical structure of different organic matter pools in haplic chernozem of the streletskaya steppe: 13C MAS NMR study // Environmental Research. 2020. V. 191. P. 110205.
  7. V.A. Bunyaev, M.G. Chernysheva, A.G. Popov, A.V. Grigorieva, and G.A. Badun. Comparison analysis of graphene oxide reduction methods // Fullerenes Nanotubes and Carbon Nanostructures. 2020. V. 28.  № 3. P. 191-195. 
  8. M. G. Chernysheva, I. S. Chaschin, A. V. Sinolits, V. G. Vasil’ev, A. G. Popov, G. A. Badun, and N. P. Bakuleva. Chitosan-nanodiamond composites for improving heart valve biological prostheses materials: preparation and mechanical trial // Fullerenes Nanotubes and Carbon Nanostructures. 2020. V. 28.  № 4. P. 256-261. 
  9. A. V. Sinolits, M. G. Chernysheva, O. D. Matveeva, A. G. Popov, and G. A. Badun. Chitosan adsorption on nanodiamonds: stability and mechanism // Fullerenes Nanotubes and Carbon Nanostructures. 2020. V. 28.  № 4. P. 299-303. 
  10. G. A. Badun, M. G. Chernysheva, A. V. Gus’kov, A. V. Sinolits, A. G. Popov, A. V. Egorov, T. B. Egorova, I. I. Kulakova, and G. V. Lisichkin. Adsorption of alkyltrimethylammonium bromides on nanodiamonds // Fullerenes Nanotubes and Carbon Nanostructures. 2020. V. 28. № 5. P. 361–367. 
  11. Ponomareva O. A., Maltseva A. A., Popov A. G., Dobryakova I. V., Kasyanov I. A., Ivanova, I. I. Acetone Conversion to Isobutylene over Magnesium-Containing Micro-Mesoporous MOR Zeolites // Petroleum Chemistry. 2020. V. 60. Issue 4. P. 516-524. DOI: 10.1134/S0965544120040118
  12. V. R. Drozhzhin, B. A. Kolozhvari, and D. A. Fedosov. Effect of oxidation treatments of steel substrates on the formation of mfi zeolite coatings // Petroleum Chemistry. 2020. V. 60. № 4. P. 540–549. 
  13. O. A. Ponomareva, D. L. Chistov, P. A. Kots, V. R. Drozhzhin, L. I. Rodionova, and I. I. Ivanova. Isoprene synthesis from formaldehyde and isobutylene in the presence of aluminum and niobium-containing BEA catalysts // Petroleum Chemistry. 2020. V. 60 № 8. P. 942–949.
  14. Ivanova, I.I., Moskovskaya, I.F., Ponomareva, O.A., Rodionova L.I., Smirnov A.V. The Contribution of B.V. Romanovsky to the Theory and Practice of Heterogeneous Catalysis // Petroleum Chemistry. 2020. V. 60 № 8. P. 396-419.
  15. Pavlov V.S., Bruter D.V., Konnov S.V., Ivanova I. I. Methanol Conversion on MFI Zeolites Obtained in Fluoride Medium: Effect of Silicon Source // Petroleum Chemistry. 2020. V. 60. № 8. P. 929-936.
  16. Ivanova I.I. Boris Vasilievich Romanovsky // Petroleum Chemistry. Т. 60. № 4. С. 393-395. 
  17. Maerle A.A., Rodionova L.I., Moskovskaya I.F. Effect of Synthesis Conditions on Textural Characteristics of Mesoporous Cerium(IV) Oxide // Petroleum Chemistry. 2020. V. 60. № 8. P. 853-857. 
  18. A. P. Kritskaya, O. N. Kondrateva, G. E. Nikiforova, M. A. Ryumin, K. I. Bryukhanova, B. A. Kolozhvari. Structural and thermodynamic properties of anionically substituted solid solution ceramics Y(VO4)1-(PO4) with zircon structure // Ceramics International. 2020. V. 46. № 2. P. 2576–2579. DOI: 10.1016/j.ceramint.2019.09.189
  19. A. Boretskaya, I. Il’yasov, S. Egorova, A. Popov, A. Lamberov, Modification of a phase-inhomogeneous alumina support of a palladium catalyst. Part I: effect of the amorphous phase on the textural and acidic characteristics of alumina and methods for controlling its phase homogeneity //  Materials Today Chemistry. 2020. V. 18. P. 100371. 
  20. P. A. Kots, M. A. Artsiusheuski, Y. V. Grigoriev, and I. I. Ivanova. One-Step Butadiene Synthesis via Gas-Phase Prins Condensation of Propylene with Formaldehyde over Heteropolyacid Catalysts // ACS Catalysis. 2020. V. 10. P. 15149-15161. https://dx.doi.org/10.1021/acscatal.0c03282
  1. O. A. Ponomareva, T. O. Bok, E. P. Andriako, A. V. Shkuropatov, E. E. Knyazeva, I. V. Dobryakova, and I. I. Ivanova, Comparative study of catalysts based on zeolites bea and mww in benzene alkylation with propylene // Petroleum Chemistry, vol. 59, no. 8, pp. 918–924, 2019. DOI: 10.1134/S0965544119080152
  2.  L. F. Atyaksheva, I. A. Kasyanov, and I. I. Ivanova, Adsorptive immobilization of proteins on mesoporous molecular sieves and zeolites // Petroleum Chemistry, vol. 59, no. 3, pp. 327–337, 2019. DOI: 10.1134/S0965544119030022
  3.  V. S. Pavlov, S. V. Konnov, P. A. Kots, and И. И. Иванова, Deactivation of silicoaluminophosphate sapo-34 in methanol conversion to lower olefins in different types of reactors // Petroleum Chemistry, vol. 59, no. 7, pp. 739–744, 2019. DOI: 10.1134/S0965544119070132
  4. E. E. Knyazeva, A. I. Nikiforov, D. A. Zasukhin, L. I. Rodionova, and I. I. Ivanova, Dealumination of mor zeolites with different crystal morphologies// Petroleum Chemistry, vol. 59, no. 8, pp. 860–869, 2019. DOI: 10.1134/S0965544119080085
  5. A. V. Yakimov, D. S. Zasukhin, V. A. Vorobkalo, O. A. Ponomareva, E. E. Knyazeva, V. I. Zaikovskii, B. A. Kolozhvari, and I. I. Ivanova, Dealumination of nanosized zeolites Y// Petroleum Chemistry, vol. 59, no. 5, pp. 540–545, 2019. DOI: 10.1134/S0965544119050116
  6. A. G. Popov, A. V. Efimov, A. V. Kleimenov, S. E. Kuznetsov, and I. I. Ivanova, Determination of the service life of zeolite oligomerization catalysts by accelerated deactivation testing// Petroleum Chemistry, vol. 59, no. 8, pp. 903–909, 2019. DOI: 10.1134/S0965544119080176
  7. I. M. Gerzeliev, V. P. Zhmylev, D. O. Khusaimova, A. V. Shkuropatov, E. E. Knyazeva, O. A. Ponomareva, I. I. Ivanova, and A. L. Maksimov, Effect of binder on the properties of MWW zeolite catalysts in benzene alkylation with propylene// Petroleum Chemistry, vol. 59, no. 7, pp. 695–700, 2019. DOI: 10.1134/S0965544119070041
  8. P. P. Dik, I. G. Danilova, I. S. Golubev, M. O. Kazakov, K. A. Nadeina, S. V. Budukva, V. Y. Pereyma, O. V. Klimov, I. P. Prosvirin, E. Y. Gerasimov, T. O. Bok, I. V. Dobryakova, E. E. Knyazeva, I. I. Ivanova, and A. S. Noskov, Hydrocracking of vacuum gas oil over nimo/zeolite-Al2O3: Influence of zeolite properties// Fuel, vol. 237, pp. 178–190, 2019. DOI: 10.1016/j.fuel.2018.10.012
  9. A. G. Popov, A. V. Efimov, and I. I. Ivanova, Influence of localization of acid sites on deactivation of zeolite mfi in oligomerization process of light alkenes// Petroleum Chemistry, vol. 59, no. 7, pp. 691–694, 2019. DOI: 10.1134/S0965544119070168
  10. T. O. Bok, E. P. Andriako, E. E. Knyazeva, and I. I. Irina, Influence of synthesis conditions on the crystallization mechanism and properties of bea zeolite// Petroleum Chemistry, vol. 59, no. 3, pp. 354–361, 2019. DOI: 10.1134/S0965544119030034
  11. O. A. Ponomareva, D. L. Chistov, P. A. Kots, and I. I. Ivanova, Isoprene synthesis from formaldehyde and isobutylene over zeolite catalysts// Petroleum Chemistry, vol. 59, no. 7, pp. 711–718, 2019.  DOI: 10.1134/S0965544119070156
  12. O. A. Ponomareva, P. A. Shaposhnik, S. V. Konnov, B. A. Kolozhvari, and I. I. Ivanova, Kinetic analysis of isobutylene synthesis from ethanol in the presence of ZnO/ZrO2// Petroleum Chemistry, vol. 59, no. 8, pp. 935–940, 2019. DOI: 10.1134/S0965544119080164
  13.  V. L. Sushkevich, P. A. Kots, Y. G. Kolyagin, A. V. Yakimov, A. V. Marikutsa, and I. I. Ivanova, Origin of water-induced brønsted acid sites in sn-bea zeolites// Journal of Physical Chemistry C, vol. 123, no. 9, pp. 5540–5548, 2019. DOI: 10.1021/acs.jpcc.8b12462
  14. E. E. Knyazeva, T. O. Bok, B. A. Kolozhvari, I. V. Dobryakova, and I. I. Irina, Preparation of binderless silicoaluminophosphates by vapor-phase crystallization of kaolin — phosphoric acid grains// Petroleum Chemistry, vol. 59, no. 8, pp. 845–853, 2019. DOI: 10.1134/S0965544119080073
  15. E. E. Knyazeva, A. V. Shkuropatov, D. S. Zasukhin, I. V. Dobryakova, O. A. Ponomareva, and I. I. Ivanova, Synthesis and physicochemical properties of hierarchical mww zeolites// Russian Journal of Physical Chemistry A, vol. 93, no. 10, pp. 1939–1945, 2019. DOI: 10.1134/S0044453719100133
  16.  A. G. Popov, A. I. Nikiforov, V. L. Sushkevich, I. A. Tyablikov, and I. I. Ivanova, Using the 33s nuclide for determining the particle size of the molybdenum disulfide phase supported on mesoporous silica// Petroleum Chemistry, vol. 59, no. 7, pp. 756–760, 2019.DOI: 10.1134/S096554411907017X
  17. Rodionova, L.I., Knyazeva, E.E., Konnov, S.V., Ivanova, I.I., Application of Nanosized Zeolites in Petroleum Chemistry: Synthesis and Catalytic Properties// Petroleum Chemistry, Vol 59, no 4,  2019, pp. 455-470 (обзор) DOI: 10.1134/S0965544119040133 
  18. Ramishvili, T., Tsitsishvili, V., Ivanova, I., Kokiashvili, N., Bukia, T., Kurtsikidze, G., Synergic actions of BEA-type zeolites and ultrasonic irradiation in conversion of geraniol// Asian Journal of Chemistry, Vol 31, no 2, 2019, pp. 438-444  DOI:10.14233/ajchem.2019.21670
  19. Kots, P.A., Zabilska, A.V., Grigor’ev, Y.V., Ivanova, I.I., Ethanol to Butanol Conversion over Bifunctional Zeotype Catalysts Containing Palladium and Zirconium// Petroleum Chemistry, Vol 59, no 8,  2019, pp. 925-934, DOI: 10.1134/S0965544119080097
  20. Ivanushkin, G.G., Smirnov, A.V., Kots, P.A., Ivanova, I.I., Modification of Acidic Properties of the Support for Pt–Sn/BEA Propane Dehydrogenation Catalysts// Petroleum Chemistry, Vol 59, no 7,  2019, pp. 733-738.  DOI: 10.1134/S0965544119070077
  21. Knyazeva, E.E., Ivanova, I.I., Synthesis of Nanoscale Zeolites (Review)// Petroleum Chemistry, Vol 59, no 3, 2019, pp. 262-274. DOI: 10.1134/S0965544119030083
  22. Kärger, J.,  Freude, D., Ivanova, I.I., Stepanov, A.G., Diffusion in Nanoporous Materials: from Paradigm Shift by Zhdanov Zeolites Till Recent Insight// Petroleum Chemistry, Vol 59, no 3, 2019, pp. 275-296. DOI: 10.1134/S0965544119030071
  23. Kazakov, M.O., Nadeina, K.A., Danilova, I.G., Dik, P.P., Klimov, O.V., Pereyma, V.Y., Paukshtis, E.A., Golubev, I.S., Prosvirin, I.P., Gerasimov, E.Y., Dobryakova, I.V., Knyazeva, E.E., Ivanova, I.I., Noskov, A.S.,  Influence of USY zeolite recrystallization on physicochemical properties and catalytic performance of NiMo/USY-Al 2 O 3 hydrocracking catalysts // Catalysis Today, Vol 329, 2019, pp. 108-115. DOI: 10.1016/j.cattod.2019.01.003
  24. Ramishvili, T., Tsitsishvili, V., Ivanova, I., Kokiashvili, N., Bukia, T., Kurtsikidze, G., Dobryakova, I Catalytic conversions of linalool on micro- and micro-mesoporous BEA-type zeolites under microwaves irradiation// Bulletin of the Georgian National Academy of Sciences, Volume 13, Issue 3, 2019, Pages 54-63 
  25. Badun G.A., Sinolits A.V., Chernysheva Maria G., Popov A.G., Kulakova I.I., Lisichkin G.V. Mechanism of formation of adsorption complexes amikacin–detonation nanodiamond. //  Mendeleev Communications. 2019. V. 29.  № 3. P. 318-319.
  26. Krivetskiy V., Garshev A., Marikutsa A., ., Krotova A., Filatova D., Konstantinova E., Naberezhnyi D., Khmelevsky N., Kots P., Smirnov A., Rumyantseva M., Gaskov A.. Enhancement of Lewis acidity of Cr-doped nanocrystalline SnO2 and its effect on surface NH3 oxidation and the sensory detection pattern // Chemphyschem: a European journal of chemical physics and physical chemistry. 2019.V. 20. № 15. P. 1985-1996
  27. Artsiusheuski N.A., Grachev A.L., Kolozhvari B.A., Fedosov D.A. Pervaporation of Water–Alcohol Mixtures on Cation-Exchanged LTA Zeolite Membranes // Petroleum Chemistry. 2019. V.59. № 8. P.880-886.
  28. V.L. Sushkevich, A.V. Smirnov , J.A.van Bokhoven.  Autoreduction of Copper in Zeolites: Role of Topology, Si/Al Ratio, and Copper Loading // Journal of Physical Chemistry C. 2019. V. 123.  № 15.  P. 9926-993
  1. Kolyagin Yu.G., Yakimov A.V., Tolborg S., Vennestrøm P.N.R, Ivanova I.I. Direct Observation of Tin in Different T‑Sites of Sn-BEA by One- and Two-Dimensional 119Sn MAS NMR Spectroscopy // Journal of Physical Chemistry Letters. 2018,  V. 9, Issue 13, P. 3738-3743
  2. S. V. Burdyukh, O. Ya Bereza, A. L. Pergament, L. A. Lugovskaya,  Yu G. Kolyagin. Effect of hydrogenation on the optical properties  ternal electrochromism  vanadium pentoxide xerogel films. // Thin Solid Films, 2018. V. 656 P. 22–29 
  3. Dmitry S. Zasukhin, Alexander V. Yakimov, Yury G. Kolyagin, Peter N.R. Vennestrøm, Linn E. Sommer, Irina I. Ivanova. Zeolite Y crystallization:  situ MAS NMR study. // Bullet du groupment Ampere. 2018. V. 67. P. 12–13. 
  4. Kots P.A., Zabilska A.V.,Khramov E.V., Grigoriev Y.V., Zubavichus Y.V., Ivanova I.I. Mechanism of Zr Incorporation in the Course of Hydrothermal Synthesis of Zeolite BEA // Inorganic Chemistry. 2018, V. 57, Issue 19, P. 11978-11985
  5. Ponomareva O.A., Shaposhnik P.A., Belova M.V., Kolozhvari B.A., Ivanova I.I. Novel method for the preparation of Cs-containing FAU(Y) catalysts for aniline methylation//  Frontiers of Chemical Science and Engineering. 2018, V. 12, Issue 1, P. 70-76   
  6. Smirnov A.V., Kots P.A., Panteleyev M.A., Ivanova I.I. Mechanistic study of 1,1-dimethylhydrazine transformation over Pt/SiO2 catalyst// RSC Advances. 2018, V. 8, Issue 64, P. 36970-36979           
  7. V. Tsitsishvili, T. Ramishvili, I. Ivanova, I. Dobryakova, T. Bukia, N. Kokiashvili. Formation of Long-Chain and Macrocyclic Compounds during Catalytic Conversion of Geraniol on Micro- and Micro-Mesoporous BEA-Type Zeolite // Bull. Georg. Natl. Acad. Sci. Physical Chemistry. 2018. V. 12, no.3, P. 62-69
  8. M.O. Kazakov, K.A. Nadeina, I.G. Danilova, P.P. Dik, O.V. Klimov, V.Yu. Pereyma, E.Yu. Gerasimov, I.V. Dobryakova, E.E. Knyazeva, I.I. Ivanova, A.S. Noskov. Hydrocracking of vacuum gas oil over NiMo/Y-Al2O3: Effect of mesoporosity introduced by zeolite Y recrystallization // Catal.Today.  2018. V. 305   P. 117-125   
  9. Simonov A. S., Kondratenko M. S., Elmanovich I. V., Sizov V.E., Kharitonova E. P., Abramchuk S. S., Nikolaev A. Yu, Fedosov D. A., Gallyamov M. O., Khokhlov A. R. Modification of Nafion with silica nanoparticles in supercritical carbon dioxide for electrochemical applications //  Journal of Membrane Science V.564, P. 106-114.
  10. Ya.B. Platonova, A. S. Morozov, I,D. Burtsev, Y. S. Korostei, V.Yu. Ionidi, B.V.Romanovsky, L.G. Tomilova. Oxidation of phenol catalyzed by immobilized phthalocyanine complexes // Mendeleev Communications., 2018, V. 28, P. 198–199
  11. Stanislav V. Konnov, Vladimir S. Pavlov, Pavel A. Kots, Vladimir B. Zaytsev, and Irina I. Ivanova. Mechanism of sapo-34 catalyst deactivation in the course of mto conversion in slurry reactor // Catalysis Science & Technology, 2018. V. 8. №6. P. 1564–1577 
  12. Yage Zhou, Walid Baaziz, Ovidiu Ersen, Pavel A. Kots, Evgeny I. Vovk, Xiaohong Zhou, Yong Yang, and Vitaly V. Ordomsky. Decomposition of supported pd hydride nanoparticles for the synthesis of highly dispersed metallic catalyst // Chemistry of Materials.2018. V. 30. № 22. P. 8116–8120
  13. Atyaksheva L.F., Ivanova M.V., Tarasevich B.N., Fedosov D.A., Ivanova Irina I. /Adsorption of Proteins on Silicalite-1 Surface Lipid Monolayers // Russian Journal of Physical Chemistry A. 2018. V. 92. № 7. C. 1429-1434
  14. Atyaksheva L.F., Fedosov D.A., Ivanova M.V., Kasyanov I.A., Kolozhvari B.A., Ivanova Irina I. /Mechanism of galactocerebroside adsorption on silicalite-1 //Russian Journal of Physical Chemistry A, 2018. V. 92. N 9. P. 1846-1850
  15.  Shkuropatov A.V., Knyazeva E.E., Ponomareva O.A., Ivanova I.I. Synthesis of Hierarchical MWW Zeolites and Their Catalytic Properties in Petrochemical Processes (Review) // Petroleum Chemistry. V. 58, № 10, P. 815-826
  16. O. A. Ponomareva, P. A. Shaposhnik, P. A. Kots, S. V. Konnov, B. A. Kolozhvari, and I. I. Ivanova. Synthesis of Isobutylene from Ethanol in the Presence of Catalysts Containing Zinc Oxide and Zirconia // Petroleum Chemistry, 2018, Vol. 58, No. 12, P. 1025–1033.
  17. Bok T.O., Andriako E.P., Knyazeva E.E., Konnov S.V., Ivanova I.I. Influence of the Binder Type on the Properties of Nanocrystalline Zeolite Beta-Based Catalysts for Benzene Alkylation with Propylene // Petroleum Chemistry, 2018, т. 58, № 10, P. 833-840 
  18.  Bok T.O., Knyazeva E.E., Ivanova I.I. Specific Features of Formation of Crystalline Silicoaluminophosphates in Grains Based on Kaolin and Phosphoric Acid // Russian Journal of Applied Chemistry. V. 91. № 6. P. 946-956 
  1. Atyaksheva, L. F., Ivanova, I. I., Ivanova, M. V., Tarasevich, B. N., and Fedosov, D. A. Adsorption of lipids on silicalite-1// Russian Journal of Physical Chemistry A, 2017, vol. 91, no. 5, pp. 969–973
  2. Sushkevich V. L., Kots P. A., Ivanova, I. I. Marinova M., Moldovan S., Ersen O., and Ordomsky V. V. Self-encapsulation of heteropolyacids in a 3d-ordered coke frame-work for heterogeneous catalysis in homogeneous way // Chemistry of Materials, 2017, V. 29, no.7 , pp. 2676–2680.
  3. P. A. Kots, V. L. Sushkevich, O. A. Tyablikov, and I. I. Ivanova. Synthesis of zr-containing bec-type germanosilicate with high lewis acidity // Microporous and Mesoporous Materials, 2017, V. 243, pp. 186–192.
  4. P.A. Kots, A.V. Kurkin, V.L. Sushkevich, A. N. Fitch, V.V. Chernyshev, and I. I. Ivanova. Synchrotron xrd and nmr evidence of germanium redistribution during silylation of bec-type germanosilicate // CrystEngComm, 2017, V.19, pp. 5982–5988. 
  5. Sushkevich V. L., Popov A. G., and Ivanova I. I. Sulfur-33 isotope tracing of the hydrodesulfurization process: Insights into the reaction mechanism, catalyst characterization and improvement // Angewandte Chemie — International Edition, 2017, V. 56, no.36 , pp. 10872–10876.
  6. Sushkevich V. L., Ivanova I. I., and Yakimov A. V. Revisiting acidity of snbea catalysts by combined application of ftir spectroscopy of different probe molecules // Journal of Physical Chemistry C, 2017,V. 121, pp.11437–11447. 
  7. Sushkevich V. L., and Ivanova I. I. Mechanistic study of ethanol conversion into butadiene over silver promoted zirconia catalysts // Applied Catalysis B: Environmental, 2017, V 215, pp.36–49. 
  8. I. I. Ivanova, Yu. G. Kolyagin, I. A. Kasyanov, A. V. Yakimov, T. O. Bok, and D. N. Zarubin. Time-resolved in situ mas nmr monitoring of the nucleation and growth of zeolite bea catalysts under hydrothermal conditions // Angewandte Chemie — International Edition, 2017, V.56, pp. 15344-15347. 
  9. Tsitsishvili V., Ramishvili T., Ivanova, I., Dobryakova I., Kokiashvili N., Bukia T., and Kurtsikidze G. Catalytic conversion of linalool on micro-mesoporous bea-type zeolite // Bulletin of the Georgian National Academy of Sciences 11,3 (2017), pp.79–87.
  10. Kazakov M.O., Nadeina K.A., Danilova I.G., Dik P.P., Klimov O.V., Pereyma V.Y., Gerasimov E.Y., Dobryakova I.V., Knyazeva E.E., Ivanova I.I., Noskov A.S. Hydrocracking of vacuum gas oil over NiMo/Y-Al2O3: Effect of mesoporosity introduced by zeolite Y recrystallization // Catalysis Today, 2017   DOI: 10.1016/j.cattod.2017.08.048
  11. Ponomareva O.A.,  Knyazeva E.E.,  Shkuropatov A.V.,  Ivanova I.I.,  Gerzeliev I.M.,  Khadzhiev S.N., Synthesis and Catalytic Properties of MWW Structure Zeolite in Petrochemical Processes// Petroleum Chemistry, 2017, V. 57, I. 12, pp. 1147-1150. 
  12. B V Romanovsky, I G Tarkhanova. Immobilized ionic liquids in catalysis // Russ.  Chem. Rev., 2017, т.86, №5, pp.444–458. 
  13. I. A. Tyablikov, B. V. Romanovsky. Mass Transfer Effect on the Oxidation of Alkenes and Phenol with Hydrogen Peroxide Using TS-1 Titanosilicate as a Catalyst. // Catal. Lett., 2017, V.147, №9, рр. 2434-2439.
  1. A.V. Yakimov, Y.G. Kolyagin, S. Tolborg, P.N.R. Vennestrøm, I.I. Ivanova. Accelerated synthesis of Sn-BEA in fluoride media: effect of H2O content in the gel // New Journal of Chemistry, 2016, V. 40, pp. 4367-4374.
  2. Y.G. Kolyagin, A.V. Yakimov, S. Tolborg, P.N.R. Vennestrøm, I.I. Ivanova. Application of 119Sn CPMG MAS NMR for Fast Characterization of Sn Sites in Zeolites with Natural 119Sn Isotope Abundance // Journal of Physical Chemistry Letters, 2016, V. 7, pp. 1249–1253.
  3. A.G. Popov, V.S. Pavlov, I.I. Ivanova. Effect of crystal size on butenes oligomerization over MFI catalysts // Journal of Catalysis, 2016, V. 335, pp. 155-164.
  4. M.A. Nikitina, I.I. Ivanova. Conversion of 2,3-Butanediol over Phosphate Catalysts // ChemCatChem, 2016, V. 8, Issue 7, pp. 1346–1353.
  5. V.L. Sushkevich, I.I. Ivanova. Ag-Promoted ZrBEA Zeolites Obtained by Post-Synthetic Modification for Conversion of Ethanol to Butadiene// ChemSusChem, 2016, V. 9, № 16, pp. 2216-2225
  6. A. Galarneau, Ivanova I. I.  Introduction to the themed issue in honor of Dr François Fajula: An exciting journey in the creative world of ordered porous materials and their applications // New Journal of Chemistry, 2016, V. 40, pp. 3930-3932 
  7. Sushkevich V. L., Ordomsky V., Ivanova I. I. Isoprene Synthesis from Formaldehyde and Isobutene over Keggin-type Heteropolyacids Supported on Silica  // Catalysis Science & Technology, 2016, V. 6, pp. 6354-6364 
  8. Palagin D., Sushkevich V. L., Ivanova I. I. C–C Coupling Catalyzed by Zeolites: is Enolization the Only Possible Pathway for Aldol Condensation? //Journal of Physical Chemistry C, 2016, V.120, № 41, pp. 23566-23575 
  9. V.V Ordomsky, A. Carvalho, B. Legras, S. Paul, M. Virginie, V.L Sushkevich, A. Y Khodakov, «Effects of co-feeding with nitrogen-containing compounds on the performance of supported cobalt and iron catalysts in Fischer–Tropsch synthesis» // Cat. Today, 275 (2016) 84-93
  10. B. A. Bulgakov, A. V. Babkin, P. B. Dzhevakov, A. A. Bogolyubov, A. V. Sulimov, A. V. Kepman, Yu G. Kolyagin, D. V. Guseva, V. Yu Rudyak, and A. V. Chertovich. Low-melting phthalonitrile thermosetting monomers with siloxane- and phosphate bridges. European Polymer Journal, (84):205–217, 2016. 
  11. Y. G. Kolyagin, V. N. Zakharov, A. V. Yatsenko, K. A. Paseshnichenko, S. V. Savilov, and L. A. Aslanov. Double stabilization of nanocrystalline silicon: a bonus from solvent. Journal of Nanoparticle Research, 18(1: Article 17):1–11, 2016.
  12. M. G. Gantman, I. G. Tarkhanova and Yu. G. Kolyagin. Non-innocent ligands in copper complexes catalyzed oxidation of thiols. Journal of Sulfur Chemistry, 37(5):501–514, 2016.  
  13. A. Tyablikov, L. I. Rodionova, P. D. Sobolev, I. I. Ivanova. Formation of active sites in titanium-containing zeolites with MFI structure in propylene epoxidation with hydrogen peroxide // Petroleum Chemistry, 2016, V. 56, №. 3, pp. 267-274
  14. Belova M.V., Ponomareva O.A., Ivanova I.I. Synthesis of N-methylaniline over molecular sieve catalysts // Petroleum Chemistry, 2016, V. 56, №. 3, pp. 205-210.
  15. Nikitina M.A., Sushkevich V.L.,  Ivanova I.I. Dehydration of 2,3-Butanediol over Zeolite Catalysts // Petroleum Chemistry, 2016, V.56, №. 3, pp. 230-236
  16. O. A. Ponomareva, I. A. Kasyanov, E. E. Knyazeva, S. V. Konnov and I. I. Ivanova.  «Effect of the Degree of Zeolite Recrystallization into Micro–Mesoporous Materials on Their Catalytic Properties  in Petroleum Refining and Petroleum Chemistry Processes» // Petroleum Chemistry, 2016, Vol. 56, No. 9, pp. 821–828.
  17. Ponomareva O.A., Mal’tseva A.A., Maerle A.A., Rodionova L.I., Pavlov V.S., Dobryakova I.V., Belova M.V., Ivanova I.I. Production of Isobutylene from Acetone over Micro–Mesoporous Catalysts // Petroleum Chemistry, 2016, V.56, №. 3, pp. 253-258.
  18. V. I. Kasnerik, S. V. Konnov, I. V. Dobryakova, A. O. Ivanov at al. Methanol to olefins conversion over silicoaluminophosphates with AEI structure: Effect of the active site type // Petroleum Chemistry, 2016, V. 56, №. 3, pp. 234-240
  19. O. V. Shutkina, E. E. Knyazeva, I. I. Ivanova.  Preparation and physicochemical and catalytic properties of micro-mesoporous catalysts based on faujasite // Petroleum Chemistry, 2016, V. 56, №. 3, pp. 138-145
  20. Popov A.G., Fedosov D.A., Ivanova I.I., Vedernikov O.S., Kleimenov A.V., Kondrashev D.O., Miroshkina V.D., Abrashenkov P.A., Kuznetsov S.E. A ZSM-5 zeolite-based catalyst for oligomerization of the butane–butylene fraction // Petroleum Chemistry, 2016, V. 56, № 3, pp. 255-261 
  21. Maerle A.A., Kasyanov I.A., Moskovskaya I.F.,Romanovsky B.V. Mesoporous MgO: Synthesis, Physico-chemical and Catalytic Properties.//Rassian Journal of Physical Chemistry 2016,90, N6, pp.1212-1216.
  22. A.V. Smirnov, M.A. Panteleyev, V.V. Krivetskiy, A.M. Gaskov, Catalytic oxidation of unsymmetrical dimethylhydrazine on Pt/SiO2, Russian journal of applied chemistry, 2016, Vol. 89, No. 7, pp. 1109 – 1118
  23. A.M. Maharramov, T.O. Gakhramanov, D.A.Fedosov, S.E. Eminova , E.S. Mamedov, E.I.Akhmedov. Alkylation of Toluene by ethanol on La-modified HZSM-5 Zeolite Catalysts. // Journal of Environmental Science, Computer Science and Engineering & Technology  Sec. A; 2016, Vol.5. No.3, 540-545
  24. Tyablikov, I.; Romanovsky, B.. A heterogeneous organocatalyst for olefin epoxidation // Catalysis Today. Volume 278, Part 1, pp. 40–44.