Rybakov K. S., Ushakov A. V. |
High-voltage Cathode Material Based on LiCoVO? for Lithium-Ion Battery: Development and Research |
"Electrochemical Energetics", 2019, Vol. 19, iss. 2 |
Akmaev A. S., Ivanishchev A. V., Ivanishcheva I. A., Rybakov K. S., Makhov S. V., Korzhakov A. A., Morozov D. I., Dixit A. |
Synthesis and Electrochemical Properties of Lithium-Accumulating Electrode Material Based on Li?MnSiO? |
"Electrochemical Energetics", 2019, Vol. 19, iss. 2 |
Akmaev A. S., Ivanishchev A. V., Ivanishcheva I. A., Rybakov K. S., Makhov S. V., Korzhakov A. A., Morozov D. I., Dixit A. |
Peculiarities of Obtaining and Electrochemical Properties of Lithium-Ion Battery Cathode Materials Based on Iron(II)-Lithium Orthosilicate |
"Electrochemical Energetics", 2019, Vol. 19, iss. 2 |
Rybakov K. S., Ushakov A. V. |
Application of operando X-ray diffraction to evaluate phase transformations of a LiCoVO₄ cathode |
«Электрохимическая энергетика», 2022, Т. 22, вып. 4 |
Ushakov A. V., Rybakov K. S., Khrykina A. V., Gamayunova I. M. |
Probabilistic models of the capacity of the electrode material in a wide range of current loads |
«Electrochemical Energetics», 2024, vol. 24, no. 2 |
Ushakov A. V., Rybakov K. S., Khrykina A. V. |
Composite electrodes based on Li3V2(PO4)3, Li4Ti5O12 and carbon nanotubes: The influence of composition, thickness and surface morphology on electrochemical properties |
«Electrochemical Energetics», 2024, vol. 24, no. 3 |