Development of catalysts and methods of their preparation.
Modification by SiO2 of alumina support for light alkane dehydrogenation catalysts. G.E. Bekmukhamedov, A.N. Mukhamed’yarova, S.R. Egorova, A.A. Lamberov. Catalysts, 6(10), 162 (2016).
Pilot tests of the microspherical aluminochromium KDI-M catalyst for iso-butane dehydrogenation. A.A. Lamberov, S.R. Egorova, Kh.Kh. Gilmanov, A.N. Kataev, G.E. Bekmukhamedov. Catalysis in Industry, 9, pages17–22 (2017).
Spectroscopy analysis of active component of chromia-alumina dehydrogenation catalysts. G. Bekmukhamedov, A. Igo, R. Tuktarov, V. Morozov, S. Egorova, A. Kozhevin, A. Lamberov, D. Yakhvarov. New Journal of Chemistry, 46, 4974-4978 (2022).
Electronic Interaction Between Cr3+ Ions in Chromia-Alumina Catalysts for Light Alkane Dehydrogenation. G.E. Bekmukhamedov, V.I. Morozov, R.R. Tuktarov, M.S. Bukharov, S.R. Egorova, A.A. Lamberov, D.G. Yakhvarov. Journal of Physics and Chemistry of Solids, 167, 110778, (2022).
Effect of High-Temperature Treatment on the Properties of an Alumina-Chromium Catalyst for the Dehydrogenation of Lower Paraffins. S.R. Egorova, G.E. Bekmukhamedov, A.A. Lamberov. Kinetics and Catalysis, 54, 49, (2013).
Ph.D., Kinetics and Catalysis, Kazan Federal University, Kazan, Russian Federation, 2015
2008-2016: Engineer, Kazan Federal University, Kazan, Russian Federation
2016-2022: Senior Researcher, Kazan Federal University, Kazan, Russian Federation
KAUST Catalysis Center (KCC)
Division of Physical Science and Engineering (PSE)