From material design to the industrialization of cells and batteries
our team develops innovative solutions to meet the energy challenges of
tomorrow.
We explore new chemical pathways to push the limits of current technologies. From fundamental research to applied development, our rigorous scientific approach accelerates the transition from innovation to real‑world deployment.
From chemistry to cell, we develop innovative solutions for more efficient, safer and sustainable batteries.
Design and optimization of advanced materials for next‑generation batteries. We explore innovative compositions and tailor‑made architectures to enhance energy density, durability, and system safety.
Research on sulphur chemistry paired with lithium and sodium to achieve higher energy densities and optimized life cycles.
Development of formulation and manufacturing processes adapted to designed systems, with a scale-up and reproducibility approach.
Design of pouch cells and integration into modules and battery packs. Electrochemical, thermal, and mechanical optimization of the systems.
We are accelerating the transition from research to industry by developing and industrializing efficient, reliable and sustainable energy storage technologies.
We aim to set up a pilot line between 2026 and 2027.
Sulphur battery (Li-S & Na-S)
Towards unparalleled energy densities
Research on lithium–sulfur and sodium–sulfur chemistries is paving the way for unprecedented energy densities whilst pushing the limits of current technologies.
Research and intellectual property
Protecting our innovations
A technological portfolio in development, patented processes and continued exploitation of our research.
Research & innovation
At the frontier of innovation
Collaborative projects with leading academic and industrial partners to imagine the batteries of tomorrow.
Collaborative research
A collaborative ecosystem
A collaborative ecosystem with recognized partners to co-develop breakthrough technological solutions.
