Dynamic cycling enhances battery lifetime
Laboratory ageing campaigns elucidate the complex degradation behaviour of most
technologies. In lithium-ion batteries, such studies aim to capture realistic ageing …
technologies. In lithium-ion batteries, such studies aim to capture realistic ageing …
Perspective—Moving Next-Generation Phase-Field Models to BMS Applications: A Case Study that Confirms Professor Uzi Landau's Foresight
TK Telmasre, AC Concepción, S Kolluri… - Journal of The …, 2024 - iopscience.iop.org
Physics-based electrochemical models play a prominent role in the model-based analysis,
virtual engineering, and Battery Management Systems (BMS) of lithium-ion and next …
virtual engineering, and Battery Management Systems (BMS) of lithium-ion and next …
[PDF][PDF] The Newman model for phase-change electrodes: physics-based hysteresis
JM Foster, Y Grudeva, I Korotkin, EJF Dickinson… - 2024 - osf.io
Many modern, commercially relevant Li-ion batteries use insertion materials that exhibit
lithiation-induced phase change (eg lithium iron phosphate). However, the standard physics …
lithiation-induced phase change (eg lithium iron phosphate). However, the standard physics …
Kinetically Induced Memory Effect in Li-ion Batteries
P Ombrini, Q Wang, A Vasileiadis, F Wu, Z Gao, X Hu… - 2024 - chemrxiv.org
Effective optimization and control of lithium-ion batteries cannot neglect the relation between
fundamental physicochemical phenomena and performance. In this work, we apply a multi …
fundamental physicochemical phenomena and performance. In this work, we apply a multi …