1
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Bilyachenko A.N.
, Khrustalev V.N.
, Astakhov G.S.
, Zueva A.Y.
, Arteev I.S.
, Zubavichus Y.V.
, Korlyukov A.A.
, Dorovatovskii P.V.
, Shul’pina L.S.
, Ikonnikov N.S.
, Kirillova M.V.
, Shubina E.S.
, Kozlov Y.N.
, Kirillov A.M.
, Shul'pin G.B.
Cagelike Rb2-, K2-, and Na2-Tetracopper(II) Silsesquioxanes with Quaternary Ammonium Cations: Synthesis, Structures, and Catalytic Activity
Organometallics. 2023.
V.42. N18. P.2577–2589. DOI: 10.1021/acs.organomet.2c00649
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2
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Bilyachenko A.N.
, Astakhov G.S.
, Kulakova A.N.
, Korlyukov A.A.
, Zubavichus Y.V.
, Dorovatovskii P.V.
, Shul’pina L.S.
, Shubina E.S.
, Ikonnikov N.S.
, Kirillova M.V.
, Zueva A.Y.
, Kirillov A.M.
, Shul’pin G.B.
Exploring Cagelike Silsesquioxane Building Blocks for the Design of Heterometallic Cu4/M4 Architectures
Crystal Growth and Design. 2022.
V.22. P.2146−2157. DOI: 10.1021/acs.cgd.1c01225
WOS
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РИНЦ
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3
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Astakhov G.S.
, Khrustalev V.N.
, Dronova M.S.
, Gutsul E.I.
, Korlyukov A.A.
, Gelman D.
, Zubavichus Y.V.
, Novichkov D.A.
, Trigub A.L.
, Shubina E.S.
, Bilyachenko A.N.
Cage-Like Manganesesilsesquioxanes: Features of Their Synthesis, Unique Structure, and Catalytic Activity in Oxidative Amidations
Inorganic Chemistry Frontiers. 2022.
V.9. N17. P.4525-4537. DOI: 10.1039/d2qi01054b
WOS
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РИНЦ
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4
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Bilyachenko A.N.
, Gutsul E.I.
, Khrustalev V.N.
, Astakhov G.S.
, Zueva A.Y.
, Zubavichus Y.V.
, Kirillova M.V.
, Shul’pina L.S.
, Ikonnikov N.S.
, Dorovatovskii P.V.
, Shubina E.S.
, Kirillov A.M.
, Shul’pin G.B.
Acetone Factor in the Design of Cu4-, Cu6-, and Cu9-Based Cage Coppersilsesquioxanes: Synthesis, Structural Features, and Catalytic Functionalization of Alkanes
Inorganic Chemistry. 2022.
V.61. N37. P.14800-14814. DOI: 10.1021/acs.inorgchem.2c02217
Scopus
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5
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Bilyachenko A.N.
, Khrustalev V.N.
, Zueva A.Y.
, Titova E.M.
, Astakhov G.S.
, Zubavichus Y.V.
, Dorovatovskii P.V.
, Korlyukov A.A.
, Shul’pina L.S.
, Shubina E.S.
, Kozlov Y.N.
, Ikonnikov N.S.
, Gelman D.
, Shul’pin G.B.
A Novel Family of Cage-like (CuLi, CuNa, CuK)-phenylsilsesquioxane Complexes with 8-Hydroxyquinoline Ligands: Synthesis, Structure, and Catalytic Activity
Molecules. 2022.
V.27. N19. 6205
:1-25. DOI: 10.3390/molecules27196205
Scopus
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6
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Astakhov G.S.
, Levitsky M.M.
, Zubavichus Y.V.
, Khrustalev V.N.
, Titov A.A.
, Dorovatovskii P.V.
, Smol’yakov A.F.
, Shubina E.S.
, Kirillova M.V.
, Kirillov A.M.
, Bilyachenko A.N.
Cu6- and Cu8-Cage Sil- and Germsesquioxanes: Synthetic and Structural Features, Oxidative Rearrangements, and Catalytic Activity
Inorganic Chemistry. 2021.
V.60. N11. P.8062-8074. DOI: 10.1021/acs.inorgchem.1c00586
WOS
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РИНЦ
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7
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Astakhov G.S.
, Levitsky M.M.
, Bantreil X.
, Lamaty F.
, Khrustalev V.N.
, Zubavichus Y.V.
, Dorovatovskii P.V.
, Shubina E.S.
, Bilyachenko A.N.
Cu(II)-Silsesquioxanes as Efficient Precatalysts for Chan-Evans-Lam Coupling
Journal of Organometallic Chemistry. 2020.
V.906. 121022
:1-7. DOI: 10.1016/j.jorganchem.2019.121022
WOS
Scopus
РИНЦ
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8
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Astakhov G.S.
, Bilyachenko A.N.
, Levitsky M.M.
, Shul’pina L.S.
, Korlyukov A.A.
, Zubavichus Y.V.
, Khrustalev V.N.
, Vologzhanina A.V.
, Shubina E.S.
, Dorovatovskii P.V.
, Shul’pin G.B.
Coordination Affinity of Cu(II)-Based Silsesquioxanes toward N,N-Ligands and Associated Skeletal Rearrangements: Cage and Ionic Products Exhibiting a High Catalytic Activity in Oxidation Reactions
Inorganic Chemistry. 2020.
V.59. N7. P.4536-4545. DOI: 10.1021/acs.inorgchem.9b03680
WOS
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РИНЦ
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9
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Bilyachenko A.N.
, Khrustalev V.N.
, Zubavichus Y.V.
, Vologzhanina A.V.
, Astakhov G.S.
, Gutsul E.I.
, Shubina E.S.
, Levitsky M.M.
High-Nuclearity (Cu8-Based) Cage Silsesquioxanes: Synthesis and Structural Study
Crystal Growth and Design. 2018.
V.18. N4. P.2452-2457. DOI: 10.1021/acs.cgd.8b00082
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РИНЦ
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10
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Astakhov G.S.
, Bilyachenko A.N.
, Levitsky M.M.
, Korlyukov A.A.
, Zubavichus Y.V.
, Dorovatovskii P.V.
, Khrustalev V.N.
, Vologzhanina A.V.
, Shubina E.S.
Tridecanuclear CuII11Na2 Cagelike Silsesquioxanes
Crystal Growth and Design. 2018.
V.18. N9. P.5377-5384. DOI: 10.1021/acs.cgd.8b00778
WOS
Scopus
РИНЦ
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