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21
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Konokhova A.Y.
, Afonin M.Y.
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Diamidophosphine as a Precursor of the Iminophosphonamidinate Ligand in the Yttrium Complex
Russian Journal of Coordination Chemistry. 2024.
V.50. N3. P.203-210. DOI: 10.1134/s1070328423601437
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22
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Баширов Д.А.
, Сухих Т.С.
, Конченко С.Н.
СИНТЕЗ, СТРОЕНИЕ И ФОТОЛЮМИНЕСЦЕНТНЫЕ СВОЙСТВА [{Tb(Me2Si(NMes)2)(thf)2}2(μ-BH4)2]
Журнал неорганической химии. 2023.
Т.68. №9. С.1211-1216. DOI: 10.31857/S0044457X23601025
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23
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Bashirov D.A.
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Synthesis, Structure, and Photoluminescent Properties of [{Tb(Me2Si(NMes)2)(thf)2}2(μ-BH4)2]
Russian Journal of Inorganic Chemistry. 2023.
V.68. N9. P.1186–1191. DOI: 10.1134/s0036023623601484
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24
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Mironova O.A.
, Ryadun A.A.
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, Pushkarevsky N.A.
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Synthesis and photophysical properties of rare earth (La, Nd, Gd, Y, Ho) complexes with silanediamido ligands bearing a chelating phenylbenzothiazole chromophore
New Journal of Chemistry. 2023.
V.47. N7. P.3406-3416. DOI: 10.1039/d2nj05540f
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25
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Sukhikh T.S.
, Khisamov R.M.
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Synthesis, Crystal Packing Aspects and Pseudosymmetry in Coordination Compounds with a Phosphorylamide Ligand
Symmetry. 2023.
V.15. N1. 157
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26
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Afonin M.Y.
, Konokhova A.Y.
, Dmitriev A.A.
, Abramov P.A.
, Kuratieva N.V.
, Sukhikh T.S.
, Kompankov N.B.
, Gritsan N.P.
, Konchenko S.N.
Chromium–Lanthanide Complexes Containing the Cr═P═Cr Fragment: Synthesis, Characterization, and Computational Study
Inorganic Chemistry. 2023.
V.62. N26. P.10110-10119. DOI: 10.1021/acs.inorgchem.3c00518
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27
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Savkov B.Y.
, Sukhikh T.S.
, Konchenko S.N.
SAMAROCENECHALCOGENIDES [{Cp*2Sm(THF)}2(μ-Q)] (Q = S, SE, TE) AS SYNTHETIC EQUIVALENTS OF THE Q2– SYNTHON IN REACTIONS WITH CS2
Journal of Structural Chemistry. 2022.
V.63. N11. P.1734-1744. DOI: 10.1134/S0022476622110026
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28
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Mironova O.A.
, Lashchenko D.I.
, Ryadun A.A.
, Sukhikh T.S.
, Bashirov D.A.
, Pushkarevsky N.A.
, Konchenko S.N.
Synthesis and photophysical properties of rare earth complexes bearing silanediamido ligands Me 2 Si(NAryl) 2 2– (Aryl = Dipp, Mes)
New Journal of Chemistry. 2022.
V.46. N5. P.2351-2359. DOI: 10.1039/d1nj05722g
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29
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Bashirov D.A.
, Kolybalov D.S.
, Mironova O.A.
, Sukhikh T.S.
, Konchenko S.N.
On the usability of salt metathesis reactions for the synthesis of sterically crowded tris-formamidinate Ln(III) complexes: success and limits. Spontaneous reduction of Eu(III) to Eu(II)
New Journal of Chemistry. 2022.
V.46. N25. P.11994-12001. DOI: 10.1039/D2NJ01589G
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30
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Mironova O.A.
, Sukhikh T.S.
, Konchenko S.N.
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Structural Diversity and Multielectron Reduction Reactivity of Samarium(II) Iodido-β-diketiminate Complexes Dependent on Tetrahydrofuran Content
Inorganic Chemistry. 2022.
V.61. N39. P.15484-15498. DOI: 10.1021/acs.inorgchem.2c02101
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31
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Afonin M.Y.
, Stypnik N.V.
, Konokhova A.Y.
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Unexpected results of the reactions of manganese and vanadium β-diketiminate halide complexes with Na[HBEt3]
Russian Chemical Bulletin. 2022.
V.71. N7. P.1429-1440. DOI: 10.1007/s11172-022-3549-4
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32
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Sukhikh T.S.
, Kolybalov D.S.
, Khisamov R.M.
, Konchenko S.N.
PHENYL-2-BENZOTHIAZOLE-BASED α-AMINOPHOSPHINES: SYNTHESIS, CRYSTAL STRUCTURE, AND PHOTOPHYSICAL PROPERTIES
Journal of Structural Chemistry. 2022.
V.63. N9. P.1446-1452. DOI: 10.1134/s0022476622090074
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33
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Pylova E.K.
, Khisamov R.M.
, Bashirov D.A.
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The effect of halides and coordination mode of 4-amino-2,1,3-benzothiadiazole on the luminescence properties of its Zn complexes
CrystEngComm. 2022.
V.24. N47. P.8256-8265. DOI: 10.1039/d2ce01215d
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34
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Khisamov R.M.
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Fluorescence vs. Phosphorescence: Which Scenario Is Preferable in Au(I) Complexes with Benzothiadiazoles?
Molecules. 2022.
V.27. N23. 8162
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35
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Khisamov R.M.
, Ryadun A.A.
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Molecular Environment Effects That Modulate the Photophysical Properties of Novel 1,3-Phosphinoamines Based on 2,1,3-Benzothiadiazole
Molecules. 2022.
V.27. N12. 3857
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36
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Хисамов Р.М.
, Конченко С.Н.
, Сухих Т.С.
Синтез, структура и полиморфизм люминесцентных комплексов меди (I) с 1,3-аминофосфином на основе бензотиадиазола
Журнал структурной химии. 2022.
Т.63. №12. 104047
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37
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Khisamov R.M.
, Konchenko S.N.
, Sukhikh T.S.
SYNTHESIS, STRUCTURE, AND POLYMORPHISM OF LUMINESCENT COPPER(I) COMPLEXES WITH BENZOTHIADIAZOLE BASED 1,3-AMINOPHOSPINE
Journal of Structural Chemistry. 2022.
V.63. N12. P.2113-2126. DOI: 10.1134/s0022476622120228
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38
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Савков Б.Ю.
, Сухих Т.С.
, Конченко С.Н.
Самароценхалькогениды [{Cp*2Sm(THF)}2(μ-Q)] (Q = S, Se, Te) — синтетические эквиваленты синтона Q2– в реакциях с CS2
Журнал структурной химии. 2022.
Т.63. №11. С.100561. DOI: 10.26902/JSC_id100561
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39
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Sukhikh T.S.
, Kolybalov D.S.
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Luminescent Zn Halide Complexes with 2-(2-Aminophenyl)benzothiazole Derivatives
Inorganics. 2022.
V.10. N9. 138
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40
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Сухих Т.С.
, Колыбалов Д.С.
, Хисамов Р.М.
, Конченко С.Н.
α-Аминофосфины на основе фенил-2-бензотиазола: синтез, кристаллическая структура и фотофизические свойства
Журнал структурной химии. 2022.
Т.63. №9. 97834
. DOI: 10.26902/jsc_id97834
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