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Oleksiy Gogotsi (Alexei Gogotsi, Alexey Gogotsi) is Materials Research Centre Director.
Oleksiy Gogotsi takes part in international scientific research and development projects, international conferences, has co-authored several scientific articles, reports and publications in the field of materials science, carbon materials, nanomaterials, development of high-temperature fluidized bed furnaces.
Publication list of Oleksiy Gogotsi (Alexei Gogotsi, Alexey Gogotsi)
L. Liu, X. Wang, V. Izotov, D. Havrykov, I. Koltsov, W. Han, Y. Zozulya, O. Linyucheva, V. Zahorodna, O. Gogotsi, Y. Gogotsi, Capacitance of coarse-grained carbon electrodes with thickness up to 800 micrometers, Electrochimica Acta, 302, 38-44 (2019)
J. Dias, A. Gogotsi, J.C. Viegas, CFD simulation of the aerodynamic sealing of plane jets, IOSR Journal of Engineering (IOSRJEN), Vol. 09, Issue 3 (March. 2019), S (I), PP 31-53. ISSN (e): 2250-3021, ISSN (p): 2278-8719
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Gogotsi O., Izotov V., Wang X., Havrykov D., Koltsov I., Han W., Serhienko A., Hrysko I., Zozulya Yu., Linyucheva O., Balitskiy V., Zahorodna V., Gogotsi Y. Increasing thickness of coarse-grained carbon electrodes for high device capacitance, 2018 IEEE 8th International Conference on Nanomaterials: Applications & Properties, Zatoka, September 9-14, 2018
O. Gogtosi, V. Zahorodna, I. Hrysko, A. Serhienko, Y. Zozulya, V. Balitskiy, M. Seredych, B. Anasori, Y. Gogotsi. Scale-up of MXene Synthesis, 2018 IEEE 8th International Conference on Nanomaterials: Applications & Properties, Zatoka, September 9-14, 2018
O.O. Honcharuk, V. YU. Balitskiy, R. V. Voron, M.P. Brodnikovskiy, O.G. Gogotsi, V.V. Zahorodna, Y. I. Zozulya, M. Alhabeeb, B. Anasori, K. Malesky, Y. G. Gogotsi. Synthesis and Optical Properties of 2D Carbides MXenes, Book of Abstracts for 11th International Scientific-Technical Conference "Composite Materials", National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute", April 2018, рр.118-120. UDC 542;546;62.
Gogotsi O. G., Zahorodna V. V., Balitskiy V. Y., Zozulya Y. I., Gogotsi H. G., Brodnikovskiy M. P., Gubynskyi M. V., Fedorov S. S., Alhabeb M., Meng F., Anasori B., Gogotsi Y. G. Synthesis and Biomedical Applications Of 2D Carbides (MXenes), Abstract Book of 5th International Conference Nanobiophysics: Fundamental and Applied Aspects, October 2-5, 2017, Kharkiv, Ukraine
M. Gubinskyi, S. Fiodorov, Ye. Kremniova, O. Gogotsi, T. Vvedenska. Mathematical modelling of electric conductivity of dense and fluidized beds, Power Engineering and Information Technologies In Technical Objects Control – Pivnyak, Beshta & Alekseyev (eds), 2016 Taylor & Francis Group, London, ISBN 978-1-138-71479-3, p. 173-180.
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H.G. Gogotsi, N.V. Tyshchenko, A.G. Gogotsi, L.S. Protsenko, Î.N. Budilina. Comparison of adsorptive properties of carbon materials depending on method of their synthesis, Material Science of Nanostructures, № 2-4, 2015, p. 92-98 - in Russian
O. Gogotsi B. Dyatkin, Y. Gogotsi, P. Simon, Y. Zozulya, B. Malinovskiy, V. Zahorodna. Nanostructured tunable mesoporous carbon for energy and biomedical applications, Abstract Book of 4th International Conference Nanobiophysics: Fundamental and Applied Aspects, 1-4 October 2015, Kyiv, Ukraine
O. Gogotsi, Y. Gogotsi, V. Mochalin, Y. Zozulya, B. Malinovskiy, V. Zahorodna, I. Uvarova, H. Gogotsi, Nanodiamonds for drug delivery and other biomedical applications, Abstract Book of 4th International Conference Nanobiophysics: Fundamental and Applied Aspects, 1-4 October 2015, Kyiv, Ukraine
B. Dyatkin, O. Gogotsi, Y. Zozuly, B. Malinovskiy, P. Simon, Y. Gogotsi. High Capacitance of Coarse-Grained Carbide-Derived Carbon Particles. Abstract Book of the 4th International Symposium on Enhanced Electrochemical Capacitors, June 8-12 2015, Montpelier, France, p.143.
A.G. Gogotsi, Y.G. Gogotsi, Large-Scale Synthesis of Nanoporous Carbide-Derived Carbons, XII International Conference on Nanostructured Materials (NANO 2014), pp01.106
B. Dyatkin, O. Gogotsi, B. Malinovskiy, Y. Zozulya, P. Simon, Y. Gogotsi. High capacitance of coarse-grained carbide derived carbon electrodes, Journal of Power Sources, 2016, Vol. 306, p.38-41
P. Brodnikovskiy, A.G. Gogotsi, P.V. Mazur, Y.I.Zozulya, B.N. Malinowskiy, A.V. Samelyuk, M.V. Gubinskiy, S.S. Fedorov. Wear ferritic and austentic steels under the influence of loose particles of coke. Kyiv, Frantsevich Institute for Problems of Materials Science, Electron microscopy and strength of materials, Volume №20 (2014), pp.172-178.
S.S. Fedorov, M.V. Gubynskyi, Igor V. Barsukov, M.V. Livitan, B.S. Wells, M. Barsukov, D. Zimina, O.G. Gogotsi, Yu. Zozulya, and U.S. Rohatgi. Modeling the Operation Regimes in Ultra-High Temperature Continuous Reactors. U.S. Department of Energy Nonproliferation and National Security Publ. BNL-103872-2014-CP. Brookhaven National Laboratory, Upton, New York, USA, 1-17 (2014).
Hatzell, K. B., Iwama, E., Daffos, B., Taberna, P. L., Tzedakis, T., Gogotsi, A., Gogotsi, Y. (2013, October). High Electrosorption Capacity Electrodes for Capacitive Deionization. In Meeting Abstracts (No. 4, pp. 235-235). The Electrochemical Society.
M.V. Gubynskyi, I.V. Barsukov, S.S. Fedorov, M.V. Livitan, O.G. Gogotsi, U.S. Rohatgi. Electrothermal fluidized bed furnace for thermal treatment of recycled battery wastes. Book of Proceedings of the ASME 2013 Fluids Engineering Division Summer Meeting FEDSM2013, July 7-11, 2013, Incline Village, Nevada, USA, Publ. FEDSM2013-16630 (2013).
M.V. Gubynskyi, I.V. Barsukov, S.S. Fedorov, M.V. Livitan, O.G. Gogotsi, U.S. Rohatgi. Study of Aerodynamic Properties of Continuous High Temperature Reactors. U.S. Department of Energy Nonproliferation and National Security Publ. BNL-99755-2013-CP. Brookhaven National Laboratory, Upton, New York, USA, NA242 (2013).
Mashtalir, O., Kurtoglu, M., Pogulay, S., Gogotsi, A., Naguib, M. and Gogotsi, Y., Photocatalytic WO3 and TiO2 Films on Brass. International Journal of Applied Ceramic Technology, Volume 10, Issue 1, pages 26–32, January/February 2013, DOI: 10.1111/j.1744-7402.2012.02843.x
M.V. Gubinskiy, S.S. Fyodorov, N.V. Livitan, A.G. Gogotsy, I.V. Barsukov, Upendra Rokhatkhi. The Analysis of Energy Efficiency of Furnaces for High-Temperature Heat Treatment of Carbonaceous Materials. Journal of Metallurgical and Mining Industry, Dnipropetrovsk, Ukraine (ISSN 2310-306X), 5 (2), 71-76 (2013).
M.V. Gubynskyi, S.S. Fedorov, M.V. Livitan, I.V. Barsukov, O.G. Gogotsi, U.K. Rohatgi. Furnaces for manufacturing of high pure carbonaceous materials Conference: "Theory and practice of thermal processes in metallurgy", URFU , Yekateringburg, Russia (2012) – in Russian.
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O.G.Gogotsi, N.P.Brodnikovskiy, Y.I. Zozylia, V.V. Motronenko, P.V. Mazur, M.V. Gubinskiy, I.V. Barsukov, J. David Carter. Abrasive wear of the steel against coke. International conference PM "Powder Metallurgy: today and tomorrow", Kyiv, 2012
O. Mashtalir, S. Pogulay, M. Verovchuk, A. Gogotsi, M. Kurtoglu, I. Knocke, Y. Gogotsi, Synthesis of Photocatalytically Active Titania Nanoparticles. 12th International Ceramics Congress, CIMTEC, Montecatini Terme, Italy, 2010
G. Gogotsi, D. Ostrovoy, B. Ozersky, A. Gogotsi, Y.Gogotsi, Test Procedures and Equipment for the Mechanical Evaluation of Nanostructured Systems and Other Brittle Materials. NATO ASI "Nanostructured and Advanced Materials for Applications in Sensor, Optoelectronic and Photovoltaic Technology", 6-17 September 2004, Sozopol, Bulgaria
Yu.G. Gogotsi, A. G. Gogotsi , O. D. Shcherbina, Vliyanie okisleniya na prochnost reaktsionnospechionnoy keramiki na osnove nitrida kremniya. Poroshkovaya metallurgiya, 1986, 281 (5), 40-44 - in Russian
Yu.G. Gogotsi, A. G. Gogotsi , O. D. Shcherbina, Effect of oxidation on the strength of silicon nitride base reaction sintered ceramics. Powder metallurgy and metal ceramics, 1986, 25 (5), 388-391
Last Call! Have you submitted your abstract for IEEE NAP-2025 yet? Join us at the International Symposium on "The MXene Frontier: Transformative Nanomaterials Shaping the Future" – the largest MXene-focused conference in Europe this year! Final Submission Deadline: May 15, 2025. Don’t miss this exclusive opportunity to showcase your research and engage with world leaders in the MXene field!
We are excited to announce the publication of latest review article on MXenes in Healthcare. This comprehensive review explores the groundbreaking role of MXenes—an emerging class of 2D materials—in revolutionizing the fields of medical diagnostics and therapeutics. Read the full article here: https://doi.org/10.1039/D4NR04853A.
Congratulations and thank you to our collaborators from TU Wien and CEST for very interesting work and making it published! In this work, an upscalable electrochemical MXene synthesis is presented. Yields of up to 60% electrochemical MXene (EC-MXene) with no byproducts from a single exfoliation cycle are achieved.
Congratulations to all collaborators with this interesting joint work!
Thank you to our collaborators for the amazing joint work recently published in Graphene and 2D Nanomaterials about MXene–silk fibroin composite films aiming to develop materials with tunable electronic and thermal properties
Dr. Oleksiy Gogotsi, director of MRC and Carbon-Ukraine, innovative companies that are among the leaders on the world MXene market, visited 2024 MRS Fall Meeting & Exhibit. together with Dr. Maksym Pogorielov, Head of Advanced Biomaterials and Biophysics Laboratory, University of Latvia.
MRC and Carbon-Ukraine team visited the 3rd International MXene conference held at Drexel University on August 5-8, 2024. Conference brought together the best reserchers and leading experts on MXene field. 
Together with colleagues from the University of Latvia, MRC/Carbone Ukraine, Adam Mickiewicz University, University Clinic Essen, and others, we have developed a novel concept involving the binding of antibodies to MXenes. In our research, we utilized anti-CEACAM1 antibodies to develop targeted photo-thermal therapy for melanoma (in vitro), paving the way for future in vivo studies and clinical trials. For the first time, we demonstrate the feasibility of delivering MXenes specifically targeted to melanoma cells, enabling the effective ablation of cancer cells under near-infrared (NIR) light. This new technique opens up vast potential for the application of MXenes in cancer treatment, diagnostics, drug delivery, and many other medical purposes.
Here we demonstrate a new developed method for depositing Ti3C2Tx MXenes onto hydrophobic electrospun PCL membranes using oxygen plasma treatment. These novel patches hold tremendous potential for providing mechanical support to damaged heart tissue and enabling electrical signal transmission,thereby mimicking the crucial electroconductivity required for normal cardiac function. After a detailed investigation of scaffold-to-cell interplay, including electrical stimulation, novel technology has the potential for clinical application not only for cardiac regeneration, but also as neural and muscular tissue substitutes.
MX-MAP project participants from MRC Dr. Oleksiy Gogotsi and Veronika Zahorodna performed split secondment visit to project partner organization University of Padova (Italy). MX-MAP project works on development of the key strategies for MXene medical applications.