Welcome to HyLiST
Hybrid Lithium Metal-based Scalable Solid State Battery Manufacturing. Revolutionary Cleaner Safer Eco-friendly
Sustainable solid state battery solutions for the aeronautic and automotive industries.
About us
HyLiST in a nutshell
HyLiST is a pioneering EU-funded project under the Horizon Europe programme, backed by CINEA – the European Climate, Infrastructure, and Environment Executive Agency.
With the global push for safer, high-performance, and sustainable battery technologies, HyLiST is at the forefront of innovation, driving the next generation of solid-state lithium-ion batteries (SSBs).
The project focuses on hybrid solid electrolytes, cutting-edge cobalt-free LNMO cathodes, and high-energy Li-metal anodes, paving the way for the future of electric vehicles and aeronautics.
Our Vision
HyLiST is a pioneering EU-funded project under the Horizon Europe programme, backed by CINEA – the European Climate, Infrastructure, and Environment Executive Agency.
With the global push for safer, high-performance, and sustainable battery technologies, HyLiST is at the forefront of innovation, driving the next generation of solid-state lithium-ion batteries (SSBs).
Our mission will be achieved through a three-step approach:
Development & scale-up of battery components
- Develop advanced materials, including hybrid solid electrolytes (HSE), cobalt-free high-voltage lithium nickel manganese oxide (LNMO) cathodes, and Li metal anodes with surface engineering.
- Scale up battery components using pulsed laser deposition (PLD) technology and wet processing techniques for sustainable and cost-effective manufacturing.
Digitalisation, recycling & validation
- Utilise digital twin modeling to optimise battery design, integrating real-time performance data with simulations for enhanced reliability and compliance with EU sustainability standards.
- Implement battery passport systems and develop strategies for end-of-life management and recycling.
Understanding interfaces & enhancing performance
- Conduct in-depth material characterisation, multi-scale modeling, and interface engineering to improve battery durability, safety, and performance.
- Apply advanced analytical tools such as SEM, TEM, and EIS to study interfacial stability and prevent lithium dendrite formation.
HyLiST IN NUMBERS
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