Alexey Galushko

Education and research experience:

2010-2014 B.Sc., South Ural State University. Chelyabinsk

2014-2016 M.Sc., South Ural State University. Chelyabinsk

2016 - 2022, Ph.D., Zelinsky Institute of Organic Chemistry (ZIOC RAS), Moscow

Research interests:

Carbon materials, phosphorus-doped carbon materials, heterogeneous catalysis, supported catalysts, cross-coupling reaction, physical chemistry, quantum chemistry, 3D-printing


1. Eremin D.B., Galushko A.S., Boiko D.A., Pentsak E.O., Chistyakov I.V., Ananikov V. P., "Toward Totally Defined Nanocatalysis: Deep Learning Reveals the Extraordinary Activity of Single Pd/C Particles", J. Am. Chem. Soc., 2022, 144, 13, 6071–6079.

2. Denisova E.A., Kostyukovich A.Yu., Fakhrutdinov A.N., Korabelnikova V.A., Galushko A.S., Ananikov V.P., ""Hidden" Nanoscale Catalysis in Alkyne Hydrogenation with Well-Defined Molecular Pd/NHC Complexes", ACS Catal., 2022, 12, 12, 6980-6996

3. Egorova K.S., Posvyatenko A.V., Galushko A.S., Ananikov V.P., "Fast evaluation of the safety of chemical reactions using cytotoxicity potentials and bio-Strips", Chemosphere, 2022, 313, 137378.

4. Shaydullin R.R., Galushko A.S., Pentsak E.O., Korshunov V.M., Taydakov I.V., Gordeev E.G., Minyaev M.V., Nasyrova D.I., Ananikov V. P. "Yellow to blue switching of fluorescence by the tuning of the pentaphenylphosphole structure: phosphorus electronic state vs. ring conjugation", Phys. Chem. Chem. Phys., 2022, 24, 25307.

5. Pentsak E.O., Dzhemileva L.U., D'yakonov V.A., Shaydullin R.R., Galushko A.S., Egorova K.S., Ananikov V.P., "Comparative assessment of heterogeneous and homogeneous Suzuki-Miyaura catalytic reactions using bio-Profiles and bio-Factors", J. Organomet. Chem., 2022, 122319.

6. Galushko A.S., Kashin A.S., Eremin D.B., Polynski M.V., Pentsak E.O., Chernyshev V.M., and Ananikov V.P., Chapter «Introduction to dynamic catalysis and interface between molecular and heterogeneous catalysts» in book, Wiley, Nanoparticles in Catalysis: Advances in Synthesis and Applications, 2021, 13-42

7. Kozhmenkova A.Ya., Farafonova S.D., Saverina E.A., A.S. Galushko, Ananikov V.P., Egorov M.P., Jouikov V.V., Syroeshkin M.A. "Electrochemical Etching of Germanium in Ionic Liquids without the Use of Toxic and Corrosive Reagents", ChemNanoMat, 2021, 7, 12, 1355-1360.

8. Egorova K.S., Galushko A.S., Dzhemileva L.U., D'yakonov V.A., Ananikov V.P. "Application of Bio-Profiles of Chemical Reactions for Analysis of Solvent Impact on Overall Toxicity of C–C Cross-Coupling Process", Doklady Chemistry, 2022, 504, 2, 106-117.

9. Egorova K.S., Galushko A.S., Dzhemileva L.U., D'yakonov V.A., Ananikov V.P. "Building bio-Profiles for common catalytic reactions", Green Chem., 2021, 23, 6373-6391.

10. Shepelenko K.E., Soliev S.B., Galushko A.S., Chernyshev V.M., Ananikov V. P. "Different effects of metal-NHC bond cleavage on the Pd/NHC and Ni/NHC catalyzed ?-arylation of ketones with aryl halides", Inorg. Chem. Front., 2021, 6, 8, 1511-1527.

11. Galushko A.S., Prima D.O., Burykina J.V., Ananikov V.P., "Comparative study of aryl halides in Pd-mediated reactions: key factors beyond the oxidative addition step", Inorg. Chem. Front. , 2021, 8, 3, 620-635.

12. Prima D.O., Kulikovskaya N.S., Galushko A.S., Mironenko R.M., Ananikov V.P. "Transition metal "cocktail"-type catalysis", Curr. Opinion in Green and Sustainable Chemistry 2021, 100502.

13. Egorova K. S., Posvyatenko A.V., Fakhrutdinov A.N., Galushko A.S., Seitkalieva M.M., Ananikov V. P., "Synergistic/antagonistic cytotoxic effects in mixtures of ionic liquids with doxorubicin or mitoxantrone", J. Mol. Liq., 2021, 114870.

14. Pentsak E.O., Galushko A.S., Cherepanova V.A., Ananikov V.P., "How to Make a Cocktail of Palladium Catalysts with Cola and Alcohol: Heteroatom Doping vs. Nanoscale Morphology of Carbon Supports", Nanomaterials, 2021, 11(10), 2599.

15. Galushko A., Gordeev E., Kashin A.S., Zubavichus Ya.V. and Ananikov V., "Visualization of catalyst dynamics and development of a practical procedure to study complex "cocktail"-type catalytic systems ", Faraday Discuss., 2021, 229, 458-474.

16. Egorova K.S., Galushko A.S., Ananikov V. P., "Introducing tox?Profiles of Chemical Reactions", Angew. Chem. Int. Ed., 2020, 59, 22296–22305.

17. Kashin A.S., Galushko A.S., Degtyareva E.S., Ananikov V.P., "Solid-State C–S Coupling in Nickel Organochalcogenide Frameworks as a Route to Hierarchical Structure Transfer to Binary Nanomaterials", Inorg. Chem. , 2020, 59, 15, 10835-10844.

18. Saverina E.A., Sivasankaran V., Kapaev R.R., Galushko A.S., Ananikov V.P., Egorov M.P., Jouikov V.V., Troshin P.A., Syroeshkin M.A., "An Environment-Friendly Approach to Produce Nanostructured Germanium Anodes for Lithium-Ion Batteries", Green Chem., 2020, 22, 359-367.

19. Saverina E.A., Kapaev R.R., Stishenko P.V., Galushko A.S., Balycheva V.A., Ananikov V.P., Egorov M.P., Jouikov V.V., Troshin P.A., Syroeshkin M.A., "2?Carboxyethylgermanium Sesquioxide as A Promising Anode Material for Li?Ion Batteries", ChemSusChem, 2020, 13, 12, 3137-3146.

20. Saverina E.A., Zinchenko D.Y., Farafonova S.D., Galushko A.S., Novikov A.A., Gorbachevskii M.V., Ananikov V.P., Egorov M.P., Jouikov V.V., Syroeshkin M.A. "Porous Silicon Preparation by Electrochemical Etching in Ionic Liquids", ACS Sustainable Chem. Eng., 2020, 8, 27, 10259-10264.

21. Pentsak E.O., Galushko A.S., Shaydullin R.R., Ananikov V. P., "Stabilization of phosphorus in (1,2,3,4,5-pentaphenylphosphole)palladium", Rus. Chem. Bull., 2020, 69, 6, 1185-1188.

22. Egorova K.S., Sinjushin A.A., Posvyatenko A.V., Eremin D.B., Kashin A.S., Galushko A.S., Ananikov V.P., "Evaluation of phytotoxicity and cytotoxicity of industrial catalyst components (Fe, Cu, Ni, Rh and Pd): A case of lethal toxicity of a rhodium salt in terrestrial plants", Chemosphere, 2019, 223, 738-747.

23. Galushko A. S., Gordeev E. G., Ananikov V. P., "High-Performance Synthesis of Phosphorus-Doped Graphene Materials and Stabilization of Phosphoric Micro- and Nanodroplets", Langmuir, 2018, 34, 15739-15748.

24. Gordeev E.G., Galushko A.S., Ananikov V.P., "Improvement of quality of 3D printed objects by elimination of microscopic structural defects in fused deposition modeling", PLoS ONE, 2018, 13, e0198370 DOI