Descriptif des activités de recherche
The PhD thesis concerned aims to develop a comprehensive understanding of the working principles of All Solid State Batteries (ASSBs) by creating and experimentally validating a 3D computational model that accounts electrochemical reactions, ionic and electronic transport and Mechanics during charge and discharges cycles. The model should allow providing guidelines for the microstructure optimization in terms of mechanical stability.
Parcours
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- MSCA DESTINY / 3 years / CNRS
- Engineer/ Master (University of Monastir, 2022)
Expertise
- Computational modeling
- Mechanics
- Programming
Implication dans des projets
- DESTINY
Dernières publications
Publications
A New Three-Dimensional Microstructure-Resolved Model to Assess Mechanical Stress in Solid-State Battery Electrodes
Siwar Ben Hadj Ali, Mohammed Alabdali, Virginie Viallet, Vincent Seznec, Alejandro A. FrancoBatteries & Supercaps, 2025
Surrogate Modeling of Lithium-Ion Battery Electrode Manufacturing by Combining Physics-Based Simulation and Deep Learning
Utkarsh Vijay, Francisco Fernandez, Siwar Ben Hadj Ali, Mark Asch, Alejandro A. FrancoBatteries & Supercaps, 2025
A computational workflow for the simulation of solid state battery electrodes from manufacturing to electrochemical performance
Siwar Ben Hadj Ali, Mohammed Alabdali, Virginie Viallet, Vincent Seznec, Alejandro A. FrancoJournal of Power Sources, 2025
Influence of the mixing speed in the rheology of NMC622-based Li-ion battery electrode slurries
Diana Zapata Dominguez, Jiahui XU, Yasmina Boudjema, Siwar Ben Hadj Ali, Franco M. Zanotto and Alejandro A. FrancoJournal of Power Sources Advances, 2024
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