14 ноября 2024 г. 
A low copper content alloy Al(1-x)Cux, x≤0.1: a joint computational and experimental study.

M.A. Frolov, E.M. Dvoryanova, A.F. Krutov, V.E. Pavlova, A.V. Burchakov, V.A. Novikov, O.A. Blatova, A.V. Sokolov, A.P. Zentsov, V.Yu. Sorokin, A.N. Gataullin, S.S. Petrov, M.O. Kudryashova, A.A. Kabanov, V.A. Blatov A low copper content alloy Al(1-x)Cux, x≤0.1: a joint computational and experimental study. Physica B: Condensed Matter, 2024, 416741. doi: 10.1016/j.physb.2024.416741 IF 2.8

 
31 октября 2024 г. 
The extended investigation of the conductive characteristics of monoclinic tungstates with the Bi3.24Ln2W0.76O10.14 (Ln = La, Pr or Nd) composition.

Ekaterina Orlova, Yelizaveta A. Morkhova, Nikolay Viktorovich Lyskov, Anastasia Egorova, Egor Baldin, Artem A Kabanov, Elena Kharitonova and V. I. Voronkova The extended investigation of the conductive characteristics of monoclinic tungstates with the Bi3.24Ln2W0.76O10.14 (Ln = La, Pr or Nd) composition. Dalton Transactions, 2024. doi: 10.1039/D4DT02462A IF 3.5

 
PUB20241014 14 октября 2024 г. 
Stability of inorganic ionic structures: the uniformity approach.

A. P. Shevchenko and V. A. Blatov Stability of inorganic ionic structures: the uniformity approach. Acta Crystallographica Section A, 2024, А80 (6), 446-456. doi: 10.1107/S2053273324009008 IF 2.1

 
PUB20240909 9 сентября 2024 г. 
Topological relations between crystal structures: a route to predicting inorganic materials.

Natalia A. Kabanova, Ekaterina A. Grishina, Vladislav T. Osipov, Valeria E. Pavlova, Maria A. Solodovnikova, Artem A. Kabanov & Vladislav A. Blatov Topological relations between crystal structures: a route to predicting inorganic materials. Structural Chemistry, 2024, 35 (6), 1793–1803. doi: 10.1007/s11224-024-02379-1 IF 2.1

 
PUB20240828 28 августа 2024 г. 
Extended Modeling and Experimental Study of the Li+-Ionic Conductivity in Li1.5+xAl0.5Ge1.5SixP3–xO12, x = 0; 0.1.

Svetlana V. Pershina, Yelizaveta A. Morkhova, Artem A. Kabanov, Kirill S. Okhotnikov, Eugene A. Filippov, Vladimir A. Elterman, Tamara A. Kuznetsova, Vladimir I. Voronin, George N. Starostin Extended Modeling and Experimental Study of the Li+-Ionic Conductivity in Li1.5+xAl0.5Ge1.5SixP3–xO12, x = 0; 0.1. The Journal of Physical Chemistry C, 2024, 128 (36), 14871–14879. doi: 10.1021/acs.jpcc.4c02613 IF 3.3

 
PUB20240604 4 июня 2024 г. 
A set of new promising solid chalcogenides for Na-ion batteries: yield from the crystal chemical, Monte-Carlo and quantum-chemical calculations.

Yelizaveta A. Morkhova, Alexander V. Antonyuk, Artem A. Kabanov, Vladislav A. Blatov A set of new promising solid chalcogenides for Na-ion batteries: yield from the crystal chemical, Monte-Carlo and quantum-chemical calculations. ChemPhysChem, 2024, 25 (18), e202400067. doi: 10.1002/cphc.202400067 IF 3.181

 
PUB20240224 24 февраля 2024 г. 
Extensive research of conductivity in the fluorite-like KLn4Mo3O15F (Ln = La, Pr, Nd) rare earth molybdates: theoretical and experimental data.

Ekaterina I. Orlova, Yelizaveta A. Morkhova, Anastasia V. Egorova, Artem A. Kabanov, Egor D. Baldin, Elena P. Kharitonova, Nikolay V. Lyskov, Vasiliy O. Yapaskurt, Olga A. Alekseeva, Valentina I. Voronkova and Daniil V. Korona Extensive research of conductivity in the fluorite-like KLn4Mo3O15F (Ln = La, Pr, Nd) rare earth molybdates: theoretical and experimental data. Physical Chemistry Chemical Physics, 2024, 26 (9), 7772–7782. doi: 10.1039/D3CP06134E IF 3.3

 
PUB20231215 15 декабря 2023 г. 
A Novel Class of Multivalent Ionic Conductors of the La3CuSiS7 Structure Type: the Results of Stepwise ICSD Screening.

Artem A. Kabanov, Yelizaveta A. Morkhova, Vladislav Osipov, Manuel Rothenberger, Tilmann Leisegang and Vladislav A. Blatov A Novel Class of Multivalent Ionic Conductors of the La3CuSiS7 Structure Type: the Results of Stepwise ICSD Screening. Physical Chemistry Chemical Physics, 2024, 26 (3), 2622–2628. doi: 10.1039/D3CP04510B IF 3.3

 
PUB20230819 19 августа 2023 г. 
Comprehensive study of conductivity in the series of monoclinic oxymolybdates: Ln2MoO6 (Ln = Sm, Gd, Dy).

Yelizaveta A. Morkhova, Ekaterina I. Orlova, Artem A. Kabanov, Timofei A. Sorokin, Anastasia V. Egorova, Artem R. Gilev, Elena P. Kharitonova , Nikolay V. Lyskov, Valentina I. Voronkova, Natalia A. Kabanova Comprehensive study of conductivity in the series of monoclinic oxymolybdates: Ln2MoO6 (Ln = Sm, Gd, Dy). Solid State Ionics, 2023, 400, 116337. doi: 10.1016/j.ssi.2023.116337 IF 3.2

 
PUB20230723 26 июля 2023 г. 
Zinc(II) complexes of 3,5-bis(4-pyridyl)-1H-1,2,4-triazole: synthesis, the role of counter-anions in the formation of a type of crystal structure, and luminescence properties.

Alexey N. Gusev, Elena V. Braga, Ekaterina A. Zamnius, Igor A. Nauhatskiy, Maria A. Kryukova, Mikhail A. Kiskin, Eugeny V. Alexandrov, Andrey V. Sokolov, Wolfgang Linert Zinc(II) complexes of 3,5-bis(4-pyridyl)-1H-1,2,4-triazole: synthesis, the role of counter-anions in the formation of a type of crystal structure, and luminescence properties. Polyhedron, 2023, 243, 116573. doi: 10.1016/j.poly.2023.116573 IF 2.6

 
PUB20230723-0706 6 июля 2023 г. 
Impacts of Alkali Metals on the Structures and Properties of Fe(III) Heterometallic Cyclobutane-1,1-dicarboxylate Complexes.

Daniil O. Blinou, Ekaterina N. Zorina-Tikhonova, Julia K. Voronina, Maxim A. Shmelev, Anna K. Matiukhina, Pavel N. Vasilyev, Nikolay N. Efimov, Eugeny V. Alexandrov, Mikhail A. Kiskin, and Igor L. Eremenko Impacts of Alkali Metals on the Structures and Properties of Fe(III) Heterometallic Cyclobutane-1,1-dicarboxylate Complexes. Crystal Growth & Design, 2023, 23 (8), 5571–5582. doi: 10.1021/acs.cgd.3c00201 IF 3.8

 
PUB20230508 8 мая 2023 г. 
Activation Energy of Ion Diffusion in an Electrode Material: Theoretical Calculation and Experimental Estimation with LiCoVO4 as an Example.

Kirill S. Rybakov, Arseni V. Ushakov, and Artem A. Kabanov Activation Energy of Ion Diffusion in an Electrode Material: Theoretical Calculation and Experimental Estimation with LiCoVO4 as an Example. Processes, 2023, 11 (5), 1427. doi: 10.3390/pr11051427 IF 3.352

 
20230209-02 8 февраля 2023 г. 
Pore topology analysis in porous molecular systems.

Verity Anipa, Andrew Tarzia, Kim E. Jelfs, Eugeny V. Alexandrov and Matthew A. Addicoat Pore topology analysis in porous molecular systems. Royal Society Open Science, 2023, 10 (2), 220813. doi: 10.1098/rsos.220813 IF 3.853

 
PUB20221104 4 ноября 2022 г. 
Understanding Your Support System: The Design of a Stable Metal–Organic Framework/Polyazoamine Support for Biomass Conversion.

Vikram V. Karve, Nadezhda A. Nekrasova, Mehrdad Asgari, Olga Trukhina, Ilia V. Kochetygov, Hassan Abedini, Shuliang Yang, Eugeny V. Alexandrov, Jeremy S. Luterbacher, Wendy L. Queen Understanding Your Support System: The Design of a Stable Metal–Organic Framework/Polyazoamine Support for Biomass Conversion. Chemistry of Materials, 2022, 34 (22), 9854–9864. doi: 10.1021/acs.chemmater.2c01731 IF 10.508

 
PUB20220725 25 июля 2022 г. 
Adsorption Properties and Gas Chromatographic Application of a Composite Surface-layer Sorbent with Terephthalic Acid-Based Metal-Organic Framework.

Lyudmila A. Onuchak, Kirill A. Kopytin, Yuliya G. Kuraeva, Mikhail Yu. Pariichuk, Yuliya V. Martina, Nikolai A. Vinogradov, Eugeny V. Alexandrov Adsorption Properties and Gas Chromatographic Application of a Composite Surface-layer Sorbent with Terephthalic Acid-Based Metal-Organic Framework. Journal of Chromatography A, 2022, 1679, 463373. doi: 10.1016/j.chroma.2022.463373 IF 4.601

 
PUB20220704 4 июля 2022 г. 
Design and synthesis of new luminescent coordination networks of sql topology showing the highest degrees of interpenetration.

Delia Blasi, Silvio Quici, Simonetta Orlandi, Pierluigi Mercandelli, Andrey V. Sokolov, Eugeny V. Alexandrov, Lucia Carlucci Design and synthesis of new luminescent coordination networks of sql topology showing the highest degrees of interpenetration. CrystEngComm, 2022, 24 (30), 5474–5486. doi: 10.1039/d2ce00884j IF 3.756

 
PUB20220616 16 июня 2022 г. 
Metal-organic frameworks in Russia: from the synthesis and structure to functional properties and materials.

M. A. Agafonov, E. V. Alexandrov, N. A. Artyukhova, G. E. Bekmukhamedov, V. A. Blatov, ... D. G. Yakhvarov Metal-organic frameworks in Russia: from the synthesis and structure to functional properties and materials. Journal of Structural Chemistry, 2022, 63 (5), 671–843. doi: 10.1134/S0022476622050018 IF 1.071

 
PUB20220610 10 июня 2022 г. 
Generating triply periodic surfaces from crystal structures: the tiling approach and its application to zeolites.

M. I. Smolkov, O. A. Blatova, A. F. Krutov and V. A. Blatov Generating triply periodic surfaces from crystal structures: the tiling approach and its application to zeolites. Acta Crystallographica Section A, 2022, 78 (4), 327–336. doi: 10.1107/S2053273322004545 IF 2.290

 
PUB20220602 2 июня 2022 г. 
Mechanism of Conductivity in the Rare Earth Layered Ln2MoO6 (Ln = La, Pr, and Nd) Oxymolybdates: Theoretical and Experimental Investigations.

Ekaterina I. Orlova, Yelizaveta A. Morkhova, Anastasia V. Egorova, Elena P. Kharitonova, Nikolay V. Lyskov, Valentina I. Voronkova, Artem A. Kabanov, Alexey A. Veligzhanin, and Natalia A. Kabanova Mechanism of Conductivity in the Rare Earth Layered Ln2MoO6 (Ln = La, Pr, and Nd) Oxymolybdates: Theoretical and Experimental Investigations. The Journal of Physical Chemistry C, 2022, 126 (23), 9623–9633. doi: 10.1021/acs.jpcc.2c01837 IF 4.126

 
PUB20220506 6 мая 2022 г. 
Mining Knowledge from Crystal Structures: Oxidation States of Oxygen-Coordinated Metal Atoms in Ionic and Coordination Compounds.

Alexander P. Shevchenko, Michail I. Smolkov, Junjie Wang, and Vladislav A. Blatov Mining Knowledge from Crystal Structures: Oxidation States of Oxygen-Coordinated Metal Atoms in Ionic and Coordination Compounds. Journal of Chemical Information and Modeling, 2022, 62 (10), 2332–2340. doi: 10.1021/acs.jcim.2c00080 IF 4.956

 
PUB20220321 21 марта 2022 г. 
Topological transformations in metal–organic frameworks: a prospective design route?.

Eugeny V. Alexandrov, Yumin Yang, Lili Liang, Junjie Wang and Vladislav A. Blatov Topological transformations in metal–organic frameworks: a prospective design route? CrystEngComm, 2022, 24 (16), 2914–2924. doi: 10.1039/D2CE00264G IF 3.545

 
PUB20220314 14 марта 2022 г. 
Structural Features and the Li-Ion Diffusion Mechanism in Tantalum-Doped Li7La3Zr2O12 Solid Electrolytes.

Evgeniya Ilina, Efim Lyalin, Maxim Vlasov, Artem Kabanov, Kirill Okhotnikov, Elena Sherstobitova, and Mirijam Zobel Structural Features and the Li-Ion Diffusion Mechanism in Tantalum-Doped Li7La3Zr2O12 Solid Electrolytes. ACS Applied Energy Materials, 2022, 5 (3), 2959–2967. https://doi.org/10.1021/acsaem.1c03632 IF 6.024

 
PUB20220304 4 марта 2022 г. 
Design and Synthesis of Coordination Polymers with Cu(II) and Heterocyclic N-Oxides.

Andrey V. Sokolov, Anna V. V. Vologzhanina, Tatyana V. Sudakova, Yulia V. Popova and Eugeny V. Alexandrov Design and Synthesis of Coordination Polymers with Cu(II) and Heterocyclic N-Oxides. CrystEngComm, 2022, 24 (13), 2505–2515. doi: 10.1039/D2CE00139J IF 3.545

 
PUB20220125_2 25 января 2022 г. 
Computational design of materials for metal-ion batteries.

Artem A. Kabanov, Yelizaveta A. Morkhova, Iliya A. Bezuglov, Vladislav A. Blatov Computational design of materials for metal-ion batteries. In Comprehensive Inorganic Chemistry III. Elsevier, 2023, 404–429. doi: 10.1016/B978-0-12-823144-9.00062-5

 
PUB20211030 30 октября 2021 г. 
Oxygen ionic transport in LaInO3 and LaIn0.5Zn0.5O2.75 perovskites: Theory and experiment.

A. V. Egorova, Ye. A. Morkhova, A. A. Kabanov, K. G. Belova, I. E. Animitsa, V. A. Blatov, A. A. Pimenov, D. V. Korona Oxygen ionic transport in LaInO3 and LaIn0.5Zn0.5O2.75 perovskites: Theory and experiment. Solid State Ionics, 2021, 115790. doi: 10.1016/j.ssi.2021.115790 IF 3.785

 
20211110-01 27 октября 2021 г. 
Visualization and Quantification of Geometric Diversity in Metal–Organic Frameworks.

Thomas C. Nicholas, Eugeny V. Alexandrov, Vladislav A. Blatov, Alexander P. Shevchenko, Davide M. Proserpio, Andrew L. Goodwin, and Volker L. Deringer Visualization and Quantification of Geometric Diversity in Metal–Organic Frameworks. Chemistry of Materials, 2021, 33 (21), 8289–8300. doi: 10.1021/acs.chemmater.1c02439 IF 9.811

 
PUB20210806 6 августа 2021 г. 
Computational Search for Novel Zn-Ion Conductors – A Crystallochemical, Bond Valence, and Density Functional Study.

Yelizaveta A. Morkhova, Manuel Rothenberger, Tilmann Leisegang, Stefan Adams, Vladislav A. Blatov, and Artem A. Kabanov Computational Search for Novel Zn-Ion Conductors – A Crystallochemical, Bond Valence, and Density Functional Study. The Journal of Physical Chemistry C, 2021, 125 (32), 17590–17599. doi: 10.1021/acs.jpcc.1c02984 IF 4.126

 
PUB20210419 19 апреля 2021 г. 
Coordination Properties of Hydroxyisophthalic Acids: Topological Correlations, Synthesis, Structural Analysis, and Properties of New Complexes.

Andrey V. Sokolov, Anna V. Vologzhanina, Ekaterina D. Barabanova, Sergey Yu. Stefanovich, Pavel V. Dorovatovskii, Ilya V. Taydakov, Eugeny V. Alexandrov Coordination Properties of Hydroxyisophthalic Acids: Topological Correlations, Synthesis, Structural Analysis, and Properties of New Complexes. Chemistry - A European Journal, 2021, 27 (35), 9180. doi: 10.1002/chem.202100733 IF 4.857

 
20210202-03 27 января 2021 г. 
High-throughput systematic topological generation of low-energy carbon allotropes.

Vladislav A. Blatov, Changhao Yang, Dingyi Tang, Qingfeng Zeng, Andrey A. Golov & Artem A. Kabanov High-throughput systematic topological generation of low-energy carbon allotropes. npj Computational Materials, 2021, 7, 15. doi:10.1038/s41524-021-00491-y IF 11.282

 
PUB20210105 5 января 2021 г. 
Simplify to understand: how to elucidate crystal structures?.

Alexander P. Shevchenko & Vladislav A. Blatov Simplify to understand: how to elucidate crystal structures? Structural Chemistry, 2021, 32 (2), 507–519. doi:10.1007/s11224-020-01724-4 IF 2.081

 
PUB20201210 10 декабря 2020 г. 
Metastable structures of CaCO3 and their role in transformation of calcite to aragonite and postaragonite.

Pavel N. Gavryushkin, Anatoly B. Belonoshko, Nursultan Sagatov, Dinara Sagatova, Elena Zhitova, Maria G. Krzhizhanovskaya, Aleksander Rečnik, Eugeny V. Alexandrov, Inna V. Medrish, Zakhar I. Popov, and Konstantin D. Litasov Metastable structures of CaCO3 and their role in transformation of calcite to aragonite and postaragonite. Crystal Growth and Design, 2021, 21, 1, 65–74. doi: 10.1021/acs.cgd.0c00589 IF 4.089

 
PUB20200906 6 сентября 2020 г. 
Supramolecular architectures of Mn(NCS)2 complexes with N‘-(1-(pyridin-4-yl)ethylidene)picolinohydrazide and N‘-(phenyl(pyridin-4-yl)methylene)isonicotinohydrazide.

Ghodrat Mahmoudi, Maciej Kubicki, Duane Choquesillo-Lazarte, Barbara Miroslaw, Eugeny V. Alexandrov, Pavel N. Zolotarev, Antonio Frontera, Damir A. Safin Supramolecular architectures of Mn(NCS)2 complexes with N'-(1-(pyridin-4-yl)ethylidene)picolinohydrazide and N'-(phenyl(pyridin-4-yl)methylene)isonicotinohydrazide. Polyhedron, 2020, 190, 114776. doi: 10.1016/j.poly.2020.114776 IF 2.343

 
PUB20200818 18 августа 2020 г. 
Theoretical and experimental study of reversible intercalation of Li ions in the Jarosite NaFe3(SO4)2(OH)6 structure.

Nina V. Kosova, Alexander A. Shindrov, Artem A. Kabanov Theoretical and experimental study of reversible intercalation of Li ions in the Jarosite NaFe3(SO4)2(OH)6 structure. Electrochimica Acta, 2020, 359, 136950. doi:10.1016/j.electacta.2020.136950 IF 6.215

 
PUB2020071601 16 июля 2020 г. 
Topology versus porosity: what can reticular chemistry tell us about free space in metal-organic frameworks?.

Alexander P. Shevchenko, Eugeny V. Alexandrov, Andrey A. Golov, Olga A. Blatova, Alexandra S. Duyunova and Vladislav A. Blatov Topology versus porosity: what can reticular chemistry tell us about free space in metal-organic frameworks? Chemical Communications, 2020, 56 (67), 9616-9619. doi: 10.1039/D0CC04004E IF 6.164

 
PUB2020080601 25 июня 2020 г. 
Crystal structure and migration paths of alkaline ions in NaVPO4F.

D. Semykina, I. Yakovlev, O. B. Lapina, A. A. Kabanov and N. V. Kosova Crystal structure and migration paths of alkaline ions in NaVPO4F. Physical Chemistry Chemical Physics, 2020, 22 (28), 15876–15884. doi: 10.1039/D0CP02204G IF 3.567

 
20200617-04 23 апреля 2020 г. 
Solid-State 1D → 3D Transformation of Polynitrile-Based Coordination Polymers by Dehydration Reaction.

Artem O. Dmitrienko, Michail I. Buzin, Zouaoui Setifi, Fatima Setifi, Eugeny V. Alexandrov, Eugenia D. Voronova and Anna V. V. Vologzhanina Solid-State 1D → 3D Transformation of Polynitrile-Based Coordination Polymers by Dehydration Reaction. Dalton Transactions, 2020, 49 (21), 7084–7092. doi: 10.1039/D0DT00917B IF 4.052

 
PUB20200402 2 апреля 2020 г. 
The CSD and knowledge databases: from answers to questions.

Alexander P. Shevchenko, Roman A. Eremin and Vladislav A. Blatov The CSD and knowledge databases: from answers to questions. CrystEngComm, 2020, 22 (43), 7298–7307. doi: 10.1039/D0CE00265H IF 3.382

 
20200421-01 26 марта 2020 г. 
Record Complexity in the Polycatenation of Three Porous Hydrogen-Bonded Organic Frameworks with Stepwise Adsorption Behaviors.

Yu-Lin Li, Eugeny V. Alexandrov, Qi Yin, Lan Li, Zhi-Bin Fang, Wenbing Yuan, Davide M. Proserpio, Tian-Fu Liu Record Complexity in the Polycatenation of Three Porous Hydrogen-Bonded Organic Frameworks with Stepwise Adsorption Behaviors. Journal of the American Chemical Society, 2020, 142 (15), 7218–7224. doi: 10.1021/jacs.0c02406 IF 14.695