A.Yu. Rybkin, A.Yu. Belik, O. A. Kraevaya, E. A. Khakina, A.V. Zhilenkov, N.S. Goryachev, D. Volyniuk, J. V. Grazulevicius, P. A. Troshin, A. I. Kotel’nikov, Covalently linked water-soluble fullerene-fluorescein dyads as highly efficient photosensitizers: Synthesis, photophysical properties and photochemical action, Dyes and Pigments, 2019, 160, 457-466.
R. A. Kotelnikova, A. V. Smolina, A.V. Zhilenkov, Yu. V. Soldatova, I. I. Faingold, P. A. Troshin, A. I. Kotel’nikov, Interaction of water-soluble pentaamino acid fullerene derivatives with membranes of phospatidylcholine liposomes, Russ. Chem. Bull., 2018, 67, 2, 366-370.
A.V. Zhilenkov, A. S. Peregudov, A. V. Chernyak, V. M. Martynenko, P. A. Troshin, Synthesis of chlorinated fullerenes C60Cln (n=2, 4) from C60Cl6 and their Arbuzov-type reaction with P(OEt)3, Tetrahedron Lett., 2018, 59, 7, 608-611.
L. V. Tat’yanenko, E. A. Khakina, A. V. Zhilenkov, P. A. Troshin, O. V. Dobrokhotova, I. Y. Pikhteleva, A. I. Kotel’nikov, Effects of Fullerene Derivatives on Activity of Ca2+-ATPase of the Sarcoplasmic Reticulum and cGMP Phosphodiesterase, Bull. Exp. Biol. Med., 2017, 163(3), 321-325.
F.-Y. Hsieh, A. V. Zhilenkov, I. I. Voronov, E. A. Khakina, D. V. Mischenko, P. A. Troshin, S.-h. Hsu, Water-soluble fullerene derivatives as brain medicine: surface chemistry determines if they are neuroprotective and antitumor, ACS App. Mater. Interfaces, 2017, 9(13), 11482-11492.
А. В. Жиленков, Е. А. Хакина, П. А. Трошин, К. С. Инчагова, Д. Г. Дерябин, Синтез и антибактериальная активность гибридных супрамолекулярных комплексов на основе тетрациклина/доксициклина и водорастворимых производных С60-фуллерена, ХФЖ, 2016, 50, 10-14.
A. V. Smolina, R. A. Kotelnikova, D. A. Poletaeva, P. A. Troshin, E. A. Khakina, A. V. Zhilenkov, Yu. V. Soldatova, V. N. Shtolko, V. V. Grigoriev, G. N. Bogdanov, A. I. Kotelnikov, Influence of water-soluble derivatives of [60]fullerene on catalytic activity of monoamine oxidase B and their membranotropic properties, Russ. Chem. Bull., 2016, 65, 3, 784-789.
I. A. Avilova, A. V. Chernyak, A. V. Zhilenkov, P. A. Troshin, V. I. Volkov, Self-organization of a water-soluble fullerene derivative studied by pulsed field gradient NMR spectroscopy, Mendeleev Commun., 2016, 26, 146-148.
D. G. Deryabin, L. V. Efremova, L. S. Vasilchenko, E. V. Saidakova, E. A. Sizova, P. A. Troshin, A. V. Zhilenkov, E. A. Khakina A zeta potential value determines the aggregate’s size of penta-substituted [60]fullerene derivatives in aqueous suspension whereas positive charge is required for toxicity against bacterial cells. J. Nanobiotechnology 2015, 13, DOI: 10.1186/s12951-015-0112-6.
D.A. Poletaeva, E.A. Khakina, V.I. Kukushkin, A.Yu. Rybkin, N.S. Goryachev, A.Yu. Belik, A.V. Zhilenkov, P.A. Troshin, R.A. Kotelnikova, A.I. Kotelnikov, Application of SERS Spectroscopy for Detection of Water-Soluble Fullerene C60 Derivatives and Their Covalent Conjugates with Dyes, Doklady Akademii Nauk, 2015, 460, 52–56.
O. L. Kobzar, V. V. Trush, V Yu. Tanchuk, A. V. Zhilenkov, P. A. Troshin, A. I. Vovk, Fullerene derivatives as a new class of inhibitors of protein tyrosine phosphatases. Bioorg Med Chem Lett.2014, 24(14), 3175-3179.
P. A. Troshin, E. A. Khakina, A. V. Zhilenkov, A. S. Peregudov, O. A. Troshina, V. I. Kozlovskii, N. V. Polyakova, R. N. Lyubovskaya. Synthesis and Spectroscopic Characterization of the First Symmetrically and Nonsymmetrically Substituted Fluorinated Emerald-Green Trannulenes C60F15R3 Soluble in Polar Media and Water, Eur. J. Org. Chem. 2010, 1037–1045.
Laboratory of Functional Materials for Electronics and Medicine
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