Summary
“It is estimated that Europe needs an installed capacity for lithium-ion battery production of 300 GWh/year by 2030. By then, the battery market for electric vehicles alone will be worth $116 billion annually. Amongst many technical challenges in this transition is to develop cost-effective and environmentally sustainable processes methods to manufacture high silicon (Si) content anodes for the next generation LIBs (3b and 4a). Si is more abundant than graphite and can enable higher power batteries with thinner electrodes as well as extending the range of EVs by increasing energy density of the next generation of LIB cells by over 50%. ELECTROFLOAT proposes a new method to produce high capacity lithium ion battery anodes made of nanostructured silicon fabrics with up to 100 w.t% Si content, which eliminates all solvents, polymers and mixing steps from anode manufacture. This project comprises a set of selected R&D activities in key areas to reach TRL7 and start pilot-plant scale up, focused on a) de-risking the manufacturing process, b) application of strategies to mitigate capacity fading and increase electrochemical performance under application operational conditions c) designing scale-up roadmap to 1GWh/a and carrying out a techno-economic analysis to determine projected manufacturing costs and establish an adequate validation-driven scale-up strategy. Non-technical activities will be conducted by an Industrialisation Development Team consisting of the PI, two external industrialisation advisors, IMDEA’s Technology Transfer officer, and the CEO of Floatech, the newly created spin-off company pursuing commercialization of this technology.”
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| Web resources: | https://cordis.europa.eu/project/id/101069349 |
| Start date: | 01-04-2023 |
| End date: | 30-09-2024 |
| Total budget - Public funding: | - 150 000,00 Euro |
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Original description
“It is estimated that Europe needs an installed capacity for lithium-ion battery production of 300 GWh/year by 2030. By then, the battery market for electric vehicles alone will be worth $116 billion annually. Amongst many technical challenges in this transition is to develop cost-effective and environmentally sustainable processes methods to manufacture high silicon (Si) content anodes for the next generation LIBs (3b and 4a). Si is more abundant than graphite and can enable higher power batteries with thinner electrodes as well as extending the range of EVs by increasing energy density of the next generation of LIB cells by over 50%. ELECTROFLOAT proposes a new method to produce high capacity lithium ion battery anodes made of nanostructured silicon fabrics with up to 100 w.t% Si content, which eliminates all solvents, polymers and mixing steps from anode manufacture. This project comprises a set of selected R&D activities in key areas to reach TRL7 and start pilot-plant scale up, focused on a) de-risking the manufacturing process, b) application of strategies to mitigate capacity fading and increase electrochemical performance under application operational conditions c) designing scale-up roadmap to 1GWh/a and carrying out a techno-economic analysis to determine projected manufacturing costs and establish an adequate validation-driven scale-up strategy. Non-technical activities will be conducted by an Industrialisation Development Team consisting of the PI, two external industrialisation advisors, IMDEA’s Technology Transfer officer, and the CEO of Floatech, the newly created spin-off company pursuing commercialization of this technology.”Status
SIGNEDCall topic
ERC-2022-POC1Update Date
31-07-2023
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