Description du projet
Des techniques de fabrication de batteries solides pour alimenter les voitures électriques en toute sécurité
De la lourde batterie plomb-acide inventée en 1859 aux petites piles bouton de votre montre-bracelet, les batteries existent depuis des siècles. Les batteries rechargeables au lithium pourraient bien changer la donne, car elles sont parfaites pour les véhicules électriques et les appareils électroniques portables. Toutefois, elles présentent un unique inconvénient, à savoir l’utilisation d’électrolytes liquides organiques inflammables dans les batteries au lithium. Dans ce contexte, le projet CSE-LBATTS financé par l’UE tentera de remédier aux limites relatives à la commercialisation des batteries au lithium à l’état solide en utilisant de nouvelles techniques de fabrication d’électrolytes solides composites (ESC) pour concevoir des batteries ESC commercialement viables.
Objectif
Rechargeable lithium batteries are a game-changing technology for electric vehicles and portable electronics due to their benefits in energy density. However, safety is a concern because of the use of flammable organic liquid electrolytes in lithium batteries. Solid state electrolytes not only address the safety issue but also eliminate the issues related to Li metal anode and thus improve gravimetric as well as volumetric energy density, cycle life, and operable temperature range. Whilst there have been recent efforts to create solid state batteries, no real transformative progress has yet been made in this area. The work performed in this proposal will address the limitations of commercialization of solid-state lithium batteries whilst utilizing novel composite solid electrolyte (CSE) fabrication techniques to design composite solid electrolytes. The proposed undertaking presents an excellent training and career acceleration opportunity - enabling me to apply my academic research in an industrial setting whilst also gaining world class advanced innovation management and product development techniques. This will help transform my career and my applied academic profile into a leading authority in solid state lithium batteries and composite solid electrolyte technology.
Champ scientifique
Programme(s)
Régime de financement
MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinateur
34469 Maslak, Istanbul
Turquie