| Giant optical anisotropy in transition metal dichalcogenides for next-generation photonics GA Ermolaev, DV Grudinin, YV Stebunov, KV Voronin, VG Kravets, ... Nature communications 12 (1), 854, 2021 | 266 | 2021 |
| Superconductivity at 253 K in lanthanum–yttrium ternary hydrides DV Semenok, IA Troyan, AG Ivanova, AG Kvashnin, IA Kruglov, ... Materials Today 48, 18-28, 2021 | 225 | 2021 |
| Synthesis of clathrate cerium superhydride CeH9 at 80-100 GPa with atomic hydrogen sublattice NP Salke, MM Davari Esfahani, Y Zhang, IA Kruglov, J Zhou, Y Wang, ... Nature communications 10 (1), 4453, 2019 | 169 | 2019 |
| On distribution of superconductivity in metal hydrides DV Semenok, IA Kruglov, IA Savkin, AG Kvashnin, AR Oganov Current Opinion in Solid State and Materials Science 24 (2), 100808, 2020 | 167 | 2020 |
| High-temperature superconductivity in a Th–H system under pressure conditions AG Kvashnin, DV Semenok, IA Kruglov, IA Wrona, AR Oganov ACS applied materials & interfaces 10 (50), 43809-43816, 2018 | 148 | 2018 |
| Actinium Hydrides AcH10, AcH12, and AcH16 as High-Temperature Conventional Superconductors DV Semenok, AG Kvashnin, IA Kruglov, AR Oganov The journal of physical chemistry letters 9 (8), 1920-1926, 2018 | 129 | 2018 |
| Uranium polyhydrides at moderate pressures: Prediction, synthesis, and expected superconductivity IA Kruglov, AG Kvashnin, AF Goncharov, AR Oganov, SS Lobanov, ... Science advances 4 (10), eaat9776, 2018 | 109 | 2018 |
| Superconductivity of and polyhydrides IA Kruglov, DV Semenok, H Song, R Szczęśniak, IA Wrona, R Akashi, ... Physical Review B 101 (2), 024508, 2020 | 107 | 2020 |
| Hydrogen sulfide at high pressure: Change in stoichiometry AF Goncharov, SS Lobanov, I Kruglov, XM Zhao, XJ Chen, AR Oganov, ... Physical Review B 93 (17), 174105, 2016 | 107 | 2016 |
| Synthesis of molecular metallic barium superhydride: pseudocubic BaH12 W Chen, DV Semenok, AG Kvashnin, X Huang, IA Kruglov, M Galasso, ... Nature communications 12 (1), 273, 2021 | 101 | 2021 |
| Topological phase singularities in atomically thin high-refractive-index materials G Ermolaev, K Voronin, DG Baranov, V Kravets, G Tselikov, Y Stebunov, ... Nature communications 13 (1), 2049, 2022 | 83 | 2022 |
| Iron Superhydrides FeH5 and FeH6: Stability, Electronic Properties, and Superconductivity AG Kvashnin, IA Kruglov, DV Semenok, AR Oganov The Journal of Physical Chemistry C 122 (8), 4731-4736, 2018 | 74 | 2018 |
| Effect of Magnetic Impurities on Superconductivity in LaH10 DV Semenok, IA Troyan, AV Sadakov, D Zhou, M Galasso, AG Kvashnin, ... Advanced Materials 34 (42), 2204038, 2022 | 72 | 2022 |
| Energy-free machine learning force field for aluminum I Kruglov, O Sergeev, A Yanilkin, AR Oganov Scientific reports 7 (1), 8512, 2017 | 71 | 2017 |
| Machine learning scheme for fast extraction of chemically interpretable interatomic potentials PE Dolgirev, IA Kruglov, AR Oganov AIP Advances 6 (8), 2016 | 67 | 2016 |
| Target‐Driven Design of Deep‐UV Nonlinear Optical Materials via Interpretable Machine Learning M Wu, E Tikhonov, A Tudi, I Kruglov, X Hou, C Xie, S Pan, Z Yang Advanced Materials 35 (23), 2300848, 2023 | 62 | 2023 |
| Novel strongly correlated europium superhydrides DV Semenok, D Zhou, AG Kvashnin, X Huang, M Galasso, IA Kruglov, ... The Journal of Physical Chemistry Letters 12 (1), 32-40, 2020 | 57 | 2020 |
| Phase diagram of uranium from ab initio calculations and machine learning IA Kruglov, A Yanilkin, AR Oganov, P Korotaev Physical Review B 100 (17), 174104, 2019 | 46 | 2019 |
| Search for stable cocrystals of energetic materials using the evolutionary algorithm USPEX M Pakhnova, I Kruglov, A Yanilkin, AR Oganov Physical Chemistry Chemical Physics 22 (29), 16822-16830, 2020 | 38 | 2020 |
| Unbiased Screening of Novel Infrared Nonlinear Optical Materials with High Thermal Conductivity: Long‐neglected Nitrides and Popular Chalcogenides D Chu, Y Huang, C Xie, E Tikhonov, I Kruglov, G Li, S Pan, Z Yang Angewandte Chemie 135 (16), e202300581, 2023 | 36 | 2023 |
