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Results

Deliverables marked with * are confidential, public summary available

WP1: Requirements and specifications

D1.1: Report of testing procedures*

D1.2: Report on cell specification and cell design*

WP2: Upscale integration and cell assembly

D2.1: Gen. S1 pouch cell demonstrating 900Wh/L (due Dec 2021)*

D2.2: Gen. S1 pouch cell demonstrating 1Ah (due Mar 2022)*

D2.3: Report comparing the different 2nd generation composite cathodes (due Jun 2022)*

D2.4: Gen. S2 pouch cell demonstrating 1200Wh/L (due Sep 2023)*

D2.5: Gen. S2 pouch cell demonstrating 1Ah (due Dec 2023)*

D2.6: Report on the manufacturability of the developed pouch cells on an industrial tool set (due Dec 2023)*

D2.7: Roadmap towards 2030 (due Dec 2023)*

WP3: Electrolyte scale up

D3.1: Procedure to fabricate electrolyte separator sheet of 1st generation (PIL) (due Jun 2021)*

D3.2: Procedure to fabricate electrolyte separator sheet of 2nd generation (nano- SCE) (due Mar 2023)

D3.3: Report on the manufacturability of the developed nano-SCE electrolyte separator on an industrial tool set (due Dec 2023)*

WP4: Liquid-processed composite cathode

D4.1: Optimized surface chemistry and microstructure of NMC622 for 1st generation (baseline) composite cathodes*

D4.2: Procedure to coat NCM622 particles to be compatible with aqueous slurry*

D4.3: Procedure to fabricate composite cathode of 1st generation (baseline) with NMC622 (due Jun 2021)*

D4.4: Optimized surface chemistry and microstructure of NMC811 for 2nd generation composite cathodes (due Mar 2022)*

D4.5: Procedure to coat NCM811 particles to be compatible with aqueous slurry (due Jun 2022)*

D4.6: Procedure to fabricate the selected composite cathode of the 2nd generation (singlestep, trenched or open current collector) with NMC811 (due Mar 2023)*

D4.7: Report on the manufacturability of the 1st generation (baseline) composite cathode on an industrial tool set (due Mar 2023)*

WP5: Protected Li anode

D5.1: Procedure to fabricate double-sided Li metal anodes of the 1st generation protective coating (due Jun 2021)*

D5.2: Report on influence of Li and of artificial interface layer on critical current density for dendrite formation (due Jun 2022)*

D5.3: Procedure to fabricate double-sided Li metal anodes of 2nd generation (enhanced surface area) (due Mar 2023)*

D5.4: Report on recommended handling protocols for protected Li metal anodes in large-scale manufacturing (due Dec 2023)*

WP6: Validation through simulation and testing

D6.1: Report on the thermal efficiency, stress/strain, and charge transport in the developed electrode/electrolyte formulations (due Jun 2022)*

D6.2: Report on (1) validation of experimental cycling data of Gen. S1 & S2 cells and pouch (2) pack simulation (due Jun 2023)*

D6.3: Report on (1) aging & abuse tests of Gen. S1 & S2 pouch cells and (2) recommended standards for solid-state batteries (due Dec 2023)*

WP7: Outlook, cost and environmental impact

D7.1: Report on environmental impact of cell production (Due Dec 2022)*

D7.2: Report on environmental and cost impact of full lifecycle including recycling (Due Dec 2023)*

WP8: Dissemination, exploitation and communication

D8.1: Detailed dissemination plan

D8.2: Detailed exploitation plan (Due Dec 2021)*

D8.3: Final dissemination fact sheet (Die Dec 2023)

D8.4: Final exploitation fact sheet (Due Dec 2023)*

D8.5: Public communication of final result (Due Dec 2023)

WP9: Project management

D9.1: Project Management Plan

D9.2: Consortium handbook

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Project Coordinator: Dr. Philippe Vereecken philippe.vereecken@imec.be
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Acknowledgement:

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 875557
This document reflects only the author's view, and the Agency is not responsible for any use that may be made of the information it contains.
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