Johnson Matthey, Echion, Britishvolt and UCL to produce demonstrator cells in CASCADE, a Faraday Battery Challenge-funded project
- Date 11 Oct 2021
Johnson Matthey (JM), Echion Technologies, (Echion), Britishvolt (BV) and University College London (UCL) are grant recipients in the latest round (Round 4) of the Faraday Battery Challenge.
Project CASCADE (Cathode and Anode Supply Chain for Advanced DEmonstrator) brings together these four organisations to develop a next-generation, ultra-high power and fast-charging battery materials system for automotive applications using the cathode and anode technology of JM and Echion, respectively. This follows the successful CORNEA Innovate UK project between Echion and JM, which established the commercial potential and roadmap for this technology system.
“The award of this grant is a testament to the hard work put in by each of the partners in what was a very competitive application process. I’m very excited to continue the strong relationship with JM and UCL, and work with Britishvolt for the first time,” says Dr Sarah Stevenson, Project Manager at Echion.
“There is a growing demand for advanced cells with high power capabilities to support the transition to a net-zero future. To meet these ambitions, it is important we customise the materials inside the cell to work together optimally,” says Dr James Cookson, Research Manager at Johnson Matthey.
In CASCADE, the technology will be demonstrated in commercial-format battery cells which will also be comprehensively tested by potential customer Britishvolt, who will also conduct a scale-up assessment focusing on considerations for giga-scale production. Results of these tests, together with extensive characterisation and modelling performed by the UCL Electrochemical Innovation Lab will form the basis of a knowledge package which will be used to facilitate business development and accelerate market entry. Finally, JM will develop strategies for recycling and understanding of the system's carbon footprint.