Imperial spinout company Nexeon, which is developing silicon materials for next generation Li-ion batteries, and its partners have been awarded £7million in Innovate UK funding for a project to develop significantly better materials for Li-ion batteries. The work is an essential step to achieving electric vehicles (EVs) with a range of 400 miles and above.
The project, named SUNRISE (after Synthomer, UCL & Nexeon’s Rapid Improvement in the Storage of Energy), will develop better battery materials based on silicon as a replacement for carbon in the cell anode, and optimise cell designs for automotive application. SUNRISE will also enhance the UK’s position as a centre of excellence for battery development, and support the materials manufacturing supply chain in the UK.
Silicon is currently being adopted as a partial replacement for carbon in battery anodes, typically up to the level of 10% replacement, but problems caused by expansion when the cells are charged and discharged remain a hurdle. Project SUNRISE addresses these issues, and allows more silicon to be used, further increasing the energy density that can be achieved in the cell. Innovative silicon anode material with a polymer binder represents a ‘drop-in’ replacement for current graphite anode systems. Lower cost and better performance power sources will reduce the time required for EVs to achieve mass adoption.
“The biggest problems facing EVs - range anxiety, cost, charge time or charging station availability - are almost all related to limitations of the batteries”, says Nexeon CEO, Dr Scott Brown. “Silicon anodes are now well established on the technology road maps of major automotive OEMs and cell makers, and Nexeon has received support from UK and global OEMs, several of whom will be involved in this project as it develops.
“The challenges in developing the next generation of range enabling EV battery technology creates new opportunities for partners in the material supply chain”, says Dr Robin Harrison, Synthomer’s Global Innovation Director. “Synthomer is pleased to build upon its existing experience in battery binder systems in order to realise the revolutionary potential in the SUNRISE silicon anode.”
Ruth McKernan, Innovate UK Chief Executive, said: “The Faraday Battery Challenge is breaking new ground because it offers for the first time a co-ordinated programme of competitions across research, innovation and scale-up. It will therefore draw the very best of the UK’s world-leading research into commercial technologies, and put UK businesses at the forefront of electric vehicle battery development.”
The Faraday Battery Challenge was announced in July, and is the first in a series of Research Challenges managed by Innovate UK as part of the Industrial Strategy Challenge Fund (ISCF). The Faraday Battery Challenge is an investment of £246m over four years to help UK businesses seize the opportunities presented by the transition to a low carbon economy, to ensure the UK leads the world in the design, development and manufacture of batteries for electric vehicles. Success in creating a viable battery supply chain will lead to the creation of hundreds of UK jobs, according to Innovate UK.