Descriptif des activités de recherche
My thesis project is the result of a collaboration between the LRCS and IFPEN Lyon, and is part of the BATMAN under the french Research Program “PEPR Batteries”. This project aims to develop, validate and demonstrate a digital twin of the functionality of sodium-ion batteries (SIBs) and solid-state batteries (SSBs). Specifically, I will be working on both reduced-ordered physics-based models and 3D-resolved physics-based models using electrode microstructures generated from manufacturing simulations. These 3D-resolved models will account for chemical degradation aspects, enabling simulations that cover battery behavior across multiple cycles until the end of their lifespan. Employing Bayesian optimization and machine learning techniques, my goal is to optimize cycling conditions to extend battery lifetime during charge-discharge cycles. To validate my findings, I'll compare the obtained results with experimental characterizations. Supervised by Prof. Alejandro Franco (LRCS) and Dr. Martin Petit (IFPEN).Parcours
Bachelors (Material’s Engineering, Instituto Tecnológico de Saltillo, 2015-2020)
Master (Erasmus Mundus Joint Master’s Degree MESC+, 2021-2023)
Master’s Internship (CICenergigune, supervised by Alexis Rucci and Javier Carrasco, 2023, “Multi-scale modeling of Li-ion batteries”)
Compétences
Projets en cours
BATMAN project funded by the 'PEPR Batteries' French Research Program
Integration of lithium-ion battery recycling into manufacturing through digitalization: A perspective
Imelda Cardenas-Sierra, Utkarsh Vijay, Frederic Aguesse, Néstor Antuñano, Elixabete Ayerbe, Lukas Gold, Aleksandra Naumann, Laida Otaegui, Nadir Recham, Simon Stier, Sandro Süß, Lalitha Subramanian, Nicolas Vallin, Gabriela Ventura Silva, Nicolas Von Drachenfels, Dennis Weitze, Alejandro A. Franco
Journal of Power Sources, 2025
