Aachen-based battery recycling company joins major industry and research consortium SIB:DE to establish circular value chains for next-generation batteries

• cylib joins 25-partner German consortium SIB:DE, including EDAG, VARTA, UniverCell, eight Fraunhofer Institutes, and leading universities, to develop Europe's first industrial sodium-ion battery recycling process

• Pioneering R&D is core to cylib's DNA: designing recycling infrastructure before end-of-life batteries reach scale

Aachen/Dormagen, 9 April 2026 – cylib is joining 25 leading German manufacturers and research institutes to develop Europe's first industrial recycling process for sodium-ion batteries. The SIB:DE Entwicklung project, backed by the German Federal Ministry of Research, Technology, and Space (BMFTR), runs from March 2026 to February 2029 with €14.5 million in total funding. Its focus is on producing large-format, market-ready sodium-ion cells and evaluating their recyclability, building Europe's industrial foundation for next-generation batteries before end-of-life volumes exist at scale. cylib leads the consortium's recycling efforts, together with the Technical University of Braunschweig. On cylib's side, Till Gerlach (Head of R&D) and Lisa Pillar (Project Lead) are heading up the work.

For cylib, this project reflects a core principle: build recycling infrastructure before end-of-life batteries reach scale. The company has already proven this approach with lithium-ion batteries, raising over €140 million in equity and grants and beginning construction preparations at its first industrial facility at CHEMPARK Dormagen, which will be capable of processing up to 60,000 metric tons per year (equivalent to 140,000 electric vehicle batteries). Sodium-ion is the next step in that same logic. As the technology moves toward European markets, cylib is developing the recycling technology now, ensuring circularity is built into sodium-ion from the start.

"This consortium brings together the entire value chain, from battery producers and automotive OEMs to our recycling expertise. We're not waiting for end-of-life sodium-ion batteries to accumulate; we're designing circularity into the technology from the start," says Dr. Lilian Schwich, Co-CEO of cylib.

The 25-partner consortium spans the full industrial chain: battery producers (VARTA, EAS Batteries, UniverCell), electrolyte developers (E-Lyte Innovations), intralogistics (Jungheinrich), machinery manufacturers (GROB-WERKE, Coperion), recycling systems (acp-systems), and lubricants and analytics (FUCHS LUBRICANTS). Eight Fraunhofer Institutes, four leading universities (RWTH Aachen University, the Technical University of Munich, the Technical University of Braunschweig, and KIT), and ZSW provide the scientific backbone. The project is coordinated by EDAG Production Solutions.

Two-track approach

cylib leads the recycling work package, developing two parallel routes. The first follows conventional mechanical and hydrometallurgical processing. The second, and more innovative route is direct recycling, which returns active materials directly to cell production without full chemical breakdown. For production scrap in particular, this approach could significantly reduce processing costs while maintaining material quality, with a pilot-scale demonstration targeted for early 2029.

"Sodium-ion batteries use abundant raw materials. Yet recycling is what makes the technology truly sustainable and scalable. This project establishes the foundation for a circular European sodium-ion value chain," says Schwich.

About cylib

cylib is a holistic and sustainable battery recycling company, founded in 2022 in Aachen, Germany, by Dr. Lilian Schwich, Paul Sabarny, and Dr. Gideon Schwich. With over 120 employees, the company emerged from research conducted at RWTH Aachen University to produce advanced materials for sustainable batteries and resilient European value chains.

The water-based OLiC (Optimized Lithium and Graphite Recovery) technology efficiently recovers raw materials from battery packs, black mass, or production scrap, achieving over 90% recycling efficiency for lithium, graphite, nickel, cobalt, and manganese with an 80% reduced carbon footprint compared to primary extraction, enabling a circular economy.

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Photo caption: L-R: Lisa Pillar, Project Lead cylib SIB:DE, and Till Gerlach, Head of Research & Development at cylib. Photo: cylib