Vianode and cylib Partner to Advance Recycled Graphite Supply for Battery Anode Materials

Vianode and cylib have signed a memorandum of understanding (MoU) to evaluate opportunities for integrating recycled graphite concentrate into future battery anode material production. The collaboration aims to support a more circular battery value chain by combining advanced recycling capabilities with anode material development expertise. The initiative focuses on strengthening sustainable sourcing pathways for critical battery materials while maintaining performance requirements for commercial battery applications. This development highlights growing industry efforts to increase the use of recycled materials in next-generation battery manufacturing.

Under the agreement, Vianode will develop and assess anode material formulations that incorporate recycled graphite recovered from end-of-life battery materials. The company plans to conduct testing activities and pilot-scale projects to validate the performance, quality, and commercial viability of these formulations. These evaluations are intended to determine how recycled graphite can be effectively integrated into large-scale anode production while meeting industry standards and customer expectations for battery performance.

cylib will focus on recovering and producing high-quality graphite concentrate through its proprietary Optimized Lithium and Graphite Recovery (OLiC) technology. The company will also work on establishing a reliable supply chain capable of supporting future demand for recycled graphite materials. By recovering valuable resources from used batteries, cylib aims to contribute to resource efficiency and reduce dependence on primary raw material extraction, supporting broader sustainability objectives across the battery ecosystem.

The two companies have indicated their intention to negotiate a future commercial agreement that would enable sustainable and competitive deliveries of recycled graphite concentrate. Such an agreement could create a foundation for long-term cooperation in the battery materials sector, helping accelerate circular economy practices and improving the availability of recycled feedstocks for battery manufacturing. The collaboration reflects increasing industry interest in recovering and reusing critical battery materials to support the continued growth of electrification technologies.

Frequently Asked Questions

What is the objective of the MoU between Vianode and cylib?
The memorandum of understanding aims to explore the integration of recycled graphite concentrate into battery anode materials. Through this collaboration, Vianode will evaluate recycled graphite in anode formulations while cylib will recover graphite using its proprietary OLiC technology. The companies also plan to assess commercial-scale feasibility and establish a supply chain framework that could support future deliveries of recycled graphite, helping advance sustainability and circularity within the battery materials industry.

What role will cylib play in the partnership?
cylib will focus on recovering and producing high-quality graphite concentrate from recycled battery materials using its Optimized Lithium and Graphite Recovery technology. In addition to material recovery, the company will work on building a dependable supply chain capable of supporting commercial demand. These activities are designed to provide a sustainable source of recycled graphite that can potentially be used in future battery anode production and contribute to more efficient resource utilization.

How will Vianode use the recycled graphite concentrate?
Vianode will develop and test anode material formulations containing recycled graphite concentrate supplied through the collaboration. The company plans to conduct pilot projects and performance evaluations to determine whether the material can meet commercial requirements for battery applications. The testing process will help assess quality, scalability, and compatibility with existing production processes, supporting efforts to increase the use of recycled materials in battery manufacturing.