[1] M. A. Samsonov, J. Vrána, P. Švec, V. Němec, E. Procházková, J. Cvačka, A. Růžička, “Enhanced Reactivity of N‐heterocyclic Halophosphines and Phosphenium Cations: The Activation of Carbon─ Heteroatom and Boron─ Heteroatom Bonds”, Chemistry–A European Journal 2025, 31, e00524.
[2] J. Vrána, J. Holub, M. A. Samsonov, Z. Ruzickova, R. Bulánek, J. Fanfrlik, D. Hnyk, R. M. Gomila, A. Frontera, A. Ruzicka, “Phenyl-Substituted Thiaboranes─ Linked 2D and 3D Aromatics as Noncovalent Organic Framework Materials”, Inorg. Chem. 2025, 64, 7377-7387.
[3] V. Němec, M. A. Samsonov, Z. Růžičková, J. Vrána, A. Růžička, “The investigation of the steric hindrance of anilines by means of reactions with PCl 3 and BCl 3″, Dalton Trans. 2025, 54, 11845-11856.
[4] S. Majerová, T. Chlupaty, M. A. Samsonov, J. Cvacka, E. Prochazkova, A. Ruzicka, “Addition of Lithium Silylamides to 1, 2-Dicyanobenzene: Isoindoline-1, 3-diimine Derivatives Investigated by NMR/XRD/DFT Approach”, Inorg. Chem. 2025, 64, 7592-7606.
[5] J. Holub, Š. P. Náhlík, Z. Růžičková, M. A. Samsonov, D. Hnyk, J. Cvačka, J. Fanfrlík, J. Vrána, A. Růžička, “Cationic Polyhedral Chalcogenaboranes: Activation without breaking Wade’s Rules”, Angew. Chem. Int. Ed. 2025, 64, e202419677.
[6] P. Švec, I. Vranova, Z. Růžičková, M. A. Samsonov, L. Dostál, A. Růžička, “C, N-chelated antimony and bismuth complexes; oxidation and fluorination”, J. Organomet. Chem. 2023, 990, 122644.
[7] T. Chlupatý, K. Brichová, M. A. Samsonov, Z. Růžičková, A. Růžička, “Reversible addition of tin (ii) amides to nitriles”, Dalton Trans. 2022, 51, 1879-1887.
[8] J. Zechovský, O. Mrózek, M. Samsonov, R. Jambor, A. Růžička, L. Dostál, “Coordination capabilities of bis-(2-pyridyl) amides in the field of divalent germanium, tin and lead compounds”, Dalton Trans. 2021, 50, 6321-6332.
[9] J. Vrána, V. Němec, M. A. Samsonov, A. Růžička, “On the edge of the steric repulsion and reactivity of bulky anilines; a case study of chloro (imino) phosphine synthesis”, Dalton Trans. 2021, 50, 14352-14361.
[10] J. Vrána, J. Holub, M. A. Samsonov, Z. Růžičková, J. Cvačka, M. L. McKee, J. Fanfrlík, D. Hnyk, A. Růžička, “Access to cationic polyhedral carboranes via dynamic cage surgery with N-heterocyclic carbenes”, Nat. Commun. 2021, 12, 4971.
[11] P. Švec, M. A. Samsonov, Z. Růžičková, J. Brus, A. Růžička, “Oxidative addition of cyanogen bromide to C, N-chelated and Lappert’s stannylenes”, Dalton Trans. 2021, 50, 5519-5529.
[12] M. A. Samsonov, J. Rysavy, A. Růžička, R. Matyas, “Investigation of intramolecular interactions in the crystals of tetrazene explosive and its salts”, Crystal Growth & Design 2021, 21, 6567-6575.
[13] M. Bakardjiev, J. Holub, D. Bavol, J. Vrana, M. A. Samsonov, A. Ruzicka, Z. Ruzickova, J. Fanfrlik, D. Hnyk, “Thiaborane Icosahedral Barrier Increased by the Functionalization of all Terminal Hydrogens in closo-1-SB11H11″, Inorg. Chem. 2021, 60, 8428-8431.
[14] J. Vrána, M. A. Samsonov, V. Němec, A. Růžička, “Access to the most sterically crowded anilines via non-catalysed C–C coupling reactions”, Chem. Commun. 2020, 56, 2487-2490.
[15] J. Vícha, P. Švec, Z. Růžičková, M. A. Samsonov, K. Bártová, A. Růžička, M. Straka, M. Dračínský, “Front Cover: Experimental and Theoretical Evidence of Spin‐Orbit Heavy Atom on the Light Atom 1H NMR Chemical Shifts Induced through H⋅⋅⋅ I− Hydrogen Bond (Chem. Eur. J. 40/2020)”, Chemistry–A European Journal 2020, 26, 8665-8665.
[16] J. Vicha, P. Švec, Z. Růžičková, M. A. Samsonov, K. Bártová, A. Růžička, M. Straka, M. Dračínský, “Experimental and Theoretical Evidence of Spin‐Orbit Heavy Atom on the Light Atom 1H NMR Chemical Shifts Induced through H⋅⋅⋅ I− Hydrogen Bond”, Chemistry–A European Journal 2020, 26, 8698-8702.
[17] D. Markina, E. Y. Tiguntseva, A. Pushkarev, M. Samsonov, M. Vengris, B. Munkhbat, T. Shegai, G. Hix, A. Zakhidov, S. Makarov, “Photophysical properties of halide perovskite CsPb (Br1-xIx) 3 thin films and nanowires”, J. Lumin. 2020, 220, 116985.
[18] M. Havránek, M. A. Samsonov, J. Holub, Z. Růžičková, L. Drož, A. Růžička, J. Fanfrlík, D. Hnyk, “The influence of halogenated hypercarbon on crystal packing in the series of 1-Ph-2-X-1, 2-dicarba-closo-dodecaboranes (X= F, Cl, Br, I)”, Molecules 2020, 25, 1200.
[19] J. Vrána, J. Holub, M. A. Samsonov, Z. Růžičková, J. Fanfrlík, D. Hnyk, A. Růžička, “Thiaborane clusters with an exoskeletal B–H group”, Chem. Commun. 2019, 55, 3375-3378.
[20] S. El Anwar, K. I. Assaf, B. Begaj, M. A. Samsonov, Z. Růžičková, J. Holub, D. Bavol, W. M. Nau, D. Gabel, B. Grűner, “Versatile, one-pot introduction of nonahalogenated 2-ammonio-decaborate ions as boron cluster scaffolds into organic molecules; host–guest complexation with γ-cyclodextrin”, Chem. Commun. 2019, 55, 13669-13672.
[21] G. S. Zabrodina, M. A. Katkova, M. A. Samsonov, S. Y. Ketkov, “Investigation of Chromophoric Behavior of Water‐Soluble LaIII‐CuII Polynuclear Metallamacrocyclic 15‐MC‐5 Complex”, Z. Anorg. Allg. Chem. 2018, 644, 907-911.
[22] G. Fukin, M. Samsonov, E. Baranov, A. Cherkasov, R. Rumyantsev, A. Arapova, “Electron Density Distribution and Structural and Energy Aspects of the Phase Transition in the Crystals of the Triphenylantimony Dimethacrylate Complex”, Russian Journal of Coordination Chemistry 2018, 44, 626-634.
[23] G. Fukin, E. Baranov, A. Cherkasov, M. Samsonov, R. Rumyantcev, “Comparative study of topological parameters of charge density obtained by various models of multipole refinement in (ƞ6-2-t-Butyl-3-phenyl-1, 2-oxazolidine-5-carbonitrile)-tricarbonyl-chromium (0) complex”, Applied Solid State Chemistry 2018, 43-50.
[24] V. Sokolov, T. Koptseva, M. Moskalev, A. Piskunov, M. Samsonov, I. Fedushkin, “Aluminium hydrides with radical-anionic and dianionic acenaphthene-1, 2-diimine ligands”, Russ. Chem. Bull. 2017, 66, 1569-1579.
[25] A. V. Nyuchev, E. N. Kochetkov, K. V. Schegravin, O. G. Zamyshlyayeva, M. A. Baten’kin, M. A. Samsonov, O. I. Koifman, Y. V. Romanenko, N. B. Melnikova, A. Y. Fedorov, “The iron complex of dimethyl chlorin e6–thioctic acid conjugate and its monolayers on the water and gold surfaces”, Mendeleev Commun. 2017, 27, 610-612.
[26] G. K. Fukin, M. A. Samsonov, A. V. Arapova, A. S. Mazur, T. O. Artamonova, M. A. Khodorkovskiy, A. V. Vasilyev, “Experimental and theoretical distribution of electron density and thermopolimerization in crystals of Ph3Sb (O2CCH= CH2) 2 complex”, J. Solid State Chem. 2017, 254, 32-39.
[27] G. Fukin, M. Samsonov, E. Baranov, A. Poddel’skii, V. Cherkasov, “Electron density distribution in crystals of the antimony (V) spiroendoperoxide complexes”, Russian Journal of Coordination Chemistry 2017, 43, 858-863.
[28] M. S. Muravyeva, G. S. Zabrodina, M. A. Samsonov, E. A. Kluev, A. A. Khrapichev, M. A. Katkova, I. V. Mukhina, “Water-soluble tetraaqua Ln (III) glycinehydroximate 15-metallacrown-5 complexes towards potential MRI contrast agents for ultra-high magnetic field”, Polyhedron 2016, 114, 165-171.
[29] K. Martyanov, V. Cherkasov, G. Abakumov, M. Samsonov, V. Khrizanforova, Y. H. Budnikova, V. Kuropatov, “New sterically-hindered o-quinones annelated with metal-dithiolates: Regiospecificity in oxidative addition reactions of a bifacial ligand to the Pd and Pt complexes”, Dalton Trans. 2016, 45, 7400-7405.
[30] K. V. Kremlev, M. A. Samsonov, G. S. Zabrodina, A. V. Arapova, P. A. Yunin, D. A. Tatarsky, P. E. Plyusnin, M. A. Katkova, S. Y. Ketkov, “Copper (II)–cerium (III) 15-metallacrown-5 based on glycinehydroxamic acid as a new precursor for heterobimetallic composite materials on carbon nanotubes”, Polyhedron 2016, 114, 96-100.
[31] G. K. Fukin, M. A. Samsonov, O. S. Kalistratova, A. V. Gushchin, “Experimental study of electron density distribution in crystals of antimony (V) dicarboxylate complexes”, Struct. Chem. 2016, 27, 357-365.
[32] G. Fukin, M. Samsonov, A. Poddel’sky, V. Cherkasov, “Reversible binding of molecular oxygen to catecholate and o-amidophenolate complexes of SbV: energy approach”, Russ. Chem. Bull. 2016, 65, 61-66.
[33] G. Fukin, M. Samsonov, E. Baranov, A. Poddel’sky, V. Cherkasov, “Experimental and theoretical investigation of topological and energy characteristics of electron density in crystals of SbV o-amidophenolate complexes”, Russ. Chem. Bull. 2016, 65, 54-60.
[34] M. Bubnov, A. Cherkasova, I. Teplova, E. Kopylova, G. Fukin, M. Samsonov, A. Bogomyakov, S. Fokin, G. Romanenko, V. Cherkasov, “Bis-o-semiquinonato nickel complexes with pyridine and pyridine modified by nitronyl-nitroxide moiety”, Polyhedron 2016, 119, 317-324.
[35] D. Razborov, A. Lukoyanov, V. Makarov, M. Samsonov, I. Fedushkin, “Complexes of gallium (III), antimony (III), titanium (IV), and cobalt (II) with acenaphthenequinonimine”, Russ. Chem. Bull. 2015, 64, 2377-2385.
[36] M. A. Katkova, G. S. Zabrodina, M. S. Muravyeva, A. A. Khrapichev, M. A. Samsonov, G. K. Fukin, S. Y. Ketkov, “New experimental insights into the formation of unexpected water-soluble Eu (III)–Cu (II) 15-metallacrown-5 compound with acetate”, Inorg. Chem. Commun. 2015, 52, 31-33.
[37] M. P. Bubnov, N. A. Skorodumova, A. V. Arapova, N. N. Smirnova, M. A. Samsonov, G. K. Fukin, V. K. Cherkasov, G. A. Abakumov, “Lattice-modulated phase transition coupled with redox-isomeric interconversion of o-semiquinone–catecholato into bis (o-semiquinonato) cobalt complexes”, Inorg. Chem. 2015, 54, 7767-7773.
[38] M. Bubnov, N. Skorodumova, A. Arapova, N. Smirnova, A. Bogomyakov, M. Samsonov, V. Cherkasov, G. Abakumov, “New bis-o-semiquinonato cobalt complexes with 1, 10-phenanthroline ligands”, Polyhedron 2015, 85, 165-171.
[39] A. A. Maleev, A. P. Pushkarev, V. A. Ilichev, M. A. Lopatin, M. A. Samsonov, G. K. Fukin, G. L. Pakhomov, V. V. Travkin, I. D. Grishin, M. N. Bochkarev, “Monophthalocyanine complexes of samarium and terbium with axial ligands: synthesis, structure and optoelectronic properties”, Journal of Rare Earths 2014, 32, 1101-1108.
[40] A. Fagin, M. Samsonov, G. Fukin, T. Balashova, M. Bochkarev, “Reactions of alkyl compounds of zinc, cadmium, and gallium with dysprosium, neodymium, and thulium diiodides”, Russ. Chem. Bull. 2014, 63, 833-836.
[41] E. Platonova, L. Bochkarev, M. Samsonov, G. Fukin, “Potassium carbazolyl complexes with coordinating solvents: Syntheses and crystal structures”, Russian Journal of Coordination Chemistry 2013, 39, 758-763.
[42] A. A. Maleev, A. A. Fagin, V. A. Ilichev, M. A. Lopatin, A. N. Konev, M. A. Samsonov, G. K. Fukin, M. N. Bochkarev, “Lanthanide pentafluorophenolates. Synthesis, structure and luminescent properties”, J. Organomet. Chem. 2013, 747, 126-132.
[43] G. Fukin, M. Samsonov, E. Baranov, A. Maleeva, A. Piskunov, V. Cherkasov, “Experimental and theoretical studies of the topological and energy parameters in the crystal of 4, 7-di-tert-butyl-2-phenyl-1, 3, 2-benzodioxaborole”, Russ. Chem. Bull. 2013, 62, 1907-1913.
[44] M. Burin, T. Balashova, D. Vorozhtsov, A. Pushkarev, M. Samsonov, G. Fukin, M. Bochkarev, “Ate complexes of lanthanides with aryloxide ligands: Synthesis, structures, and luminescence properties”, Russian Journal of Coordination Chemistry 2013, 39, 667-679.
[45] Y. E. Begantsova, L. Bochkarev, M. Samsonov, G. Fukin, “Cyclometallated iridium (III) complex with the norbornene-substituted pyrazolonate ligand and related copolymers: syntheses, structures, and photophysical properties”, Russian Journal of Coordination Chemistry 2013, 39, 661-666.