The project's primary objective is to develop a fully integrated, autonomous, and chemistry-agnostic Materials Acceleration Platform (MAP) for sustainable batteries. By leveraging advanced automation, artificial intelligence, and high-throughput experimentation, FULL-MAP aims to expedite the discovery and optimization of new battery materials and interfaces, thereby significantly reducing development timelines.
"The kickoff meeting is scheduled for February 3 and 4, 2025, marking the commencement of this four-year endeavor. We are honored to welcome the VUB Vice-Rector, who will deliver the opening speech, underscoring the university's commitment to pioneering research and sustainable innovation. Additionally, we are privileged to host Kristina Edström, Director of the European Battery 2030+ initiative, who will share invaluable insights on Europe's energy transition and the pivotal role of advanced battery technologies." says professor Mesfin Haile Mamme of the surface engineering research group of the VUB.
The consortium's collaborative efforts will focus on automating laboratory operations, integrating AI and machine learning for multi-scale and multi-physics modelling, and implementing high-throughput characterization methods. This comprehensive approach is designed to fast-track the development and deployment of next-generation materials and batteries, propelling Europe to the forefront of sustainable energy solutions.
For more information about the FULL-MAP project and its forthcoming initiatives, please visit the official project page on CORDIS: https://doi.org/10.3030/101192848
This project has received funding from the European Union's Horizon Europe research and innovation programme under grant agreement No 101192848.
Contact:
Mesfin Haile Mamme: mesfin.haile.mamme@vub.be +32 (0)483 198 309