advanced all Solid stAte saFE LIthium Metal technology tOwards Vehicle Electrification

Informacje na temat projektu

SAFELiMOVE

Identyfikator umowy o grant: 875189

Strona internetowa projektu

DOI

10.3030/875189

Projekt został zamknięty

Data podpisania przez KE 11 Grudnia 2019

Data rozpoczęcia 1 Stycznia 2020

Data zakończenia 31 Grudnia 2023

Finansowanie w ramach

INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced materials

Koszt całkowity

€ 7 882 906,25

Wkład UE

€ 7 875 406,25

7 875 406,25

7 500,00

Koordynowany przez

CENTRO DE INVESTIGACION COOPERATIVA DE ENERGIAS ALTERNATIVAS FUNDACION, CIC ENERGIGUNE FUNDAZIOA
Spain

Ten projekt został przedstawiony w…

CORDIS oferuje możliwość skorzystania z odnośników do publicznie dostępnych publikacji i rezultatów projektów realizowanych w ramach programów ramowych HORYZONT.

Odnośniki do rezultatów i publikacji związanych z poszczególnymi projektami 7PR, a także odnośniki do niektórych konkretnych kategorii wyników, takich jak zbiory danych i oprogramowanie, są dynamicznie pobierane z systemu OpenAIRE .

Rezultaty

Report on the process and upscale modelling

In this deliverable a detailed report will be prepared about process and upscale modelling of the developed solid-state batteries from coin to large cells. In this deliverable the focus will be on the impact of the different processing and upscaling parameters.

Battery cell and Material Development Roadmap

Task 8.7 and 8.8. A materials development roadmap towards 2030 goals will be presented that includes: 1) Lithium foil, NMC cathodes and solid electrolyte. Cost assumptions will be made based on the inforamtions of HQ, UMC and SCHT; 2) Cost estimations for the final battery will be made based on materials and anticipated production concepts as well as simulation results.

Evaluation of battery cell and lifetime optimization route

Report on SAFELiMOVE battery cell including lifetime assessment. Detailed findings on TRL and industrialization status.

Recycling study on SAFELiMOVE technologies

The deliverable will document all the actions undertaken to accomplish task 85 First the state of the art of recycling processes relevant for the Safelimove technology will be presented The second part of the deliverable will describe the identified strategies to proper address the end of life of the battery according to state of the art of recycling technology and to insights provided by the LCA activities carried out in task 84 This part will provide estimations and forecasts about recycling threshold which could be reached from theoretical point of view according to material composition of the Safelimove battery Last section of the document will provide an overview of potential market penetration for the considered technologies according to final technical specifications

Dissemination tools (website, flyer, project templates)

To create adoption and positive public awareness through the use of dissemination tools, in order to inform and engage relevant stakeholders.

Newsletters

Comprehensive collection of the electronic newsletters throughout the project time-line, and all other dissemination activities, including targeted audience.

Assessment of developed battery cell

Model based evaluation of the battery in comparison to state-of-the-art chemistries. Lifetime prediction and possible lifetime prolonging measures.

Dissemination plan

The comprehensive dissemination plan will complement the exploitation plan. The plan contains communication measures, activities and tools following the European Commission guide Communicating EU Research and Innovation – A guide for project participants.

Publikacje

Transport Properties and Local Ions Dynamics in LATP-Based Hybrid Solid Electrolytes

Autorzy: Nicola Boaretto, Pedram Ghorbanzade, Haritz Perez-Furundarena, Leire Meabe, Juan Miguel López del Amo, Isuru E. Gunathilaka, Maria Forsyth, Jörg Schuhmacher, Andreas Roters, Sergey Krachkovskiy, Abdelbast Guerfi, Michel Armand, María Martinez-Ibañez
Opublikowane w: Small, 2023, ISSN 1613-6810
Wydawca: Wiley - V C H Verlag GmbbH & Co.
DOI: 10.1002/smll.202305769

Development of a cell design environment for bottom-up estimation of performance parameters for lithium-ion batteries and virtual cell design - ISEA Cell & Pack Database (ICPD)

Autorzy: Matthias Kuipers, Stephan Bihn, Mark Junker, Dirk Uwe Sauer
Opublikowane w: Journal of Energy Storage, Numer Volume 72, Part C, 25 November 2023, 108396, 2023, ISSN 2352-1538
Wydawca: Elsevier
DOI: 10.1016/j.est.2023.108396

Hybrid Ceramic Polymer Electrolytes Enabling Long Cyclingin Practical 1 Ah-Class High-Voltage Solid-State Batterieswith Li Metal Anode

Autorzy: Nicola Boaretto,* Leire Meabe, Simon Lindberg, Haritz Perez-Furundarena, Itziar Aldalur,Elias Lobato, Francisco Bonilla, Izaskun Combarro, Antonio Gutiérrez-Pardo,Andriy Kvasha, Marine Lechartier, Rémi Vincent, Jérôme Cognard, Sylvie Genies,Lise Daniel, and María Martinez-Ibañez*
Opublikowane w: Advanced Functional Materials, 2024, ISSN 1616-301X
Wydawca: John Wiley & Sons Ltd.
DOI: 10.1002/adfm.202404564

Solid-state electrolytes for safe rechargeable lithium metal batteries: a strategic view

Autorzy: Leire Meabe, Itziar Aldalur, Simon Lindberg, Mikel Arrese-Igor, Michel Armand, Maria Martinez-Ibañez, Heng Zhang
Opublikowane w: Materials Futures, 2023, ISSN 2752-5724
Wydawca: IOP Publishing Ltd
DOI: 10.1088/2752-5724/accdf3

Are Polymer-Based Electrolytes Ready for High-Voltage Lithium Battery Applications? An Overview of Degradation Mechanisms and Battery Performance

Autorzy: Maria Angeles Cabañero Martínez; Nicola Boaretto; Andrew J. Naylor; Francisco Alcaide; Girish D. Salian; Flavia Palombardini; Elixabete Ayerbe; Mateu Borras; Montserrat Casas-Cabanas
Opublikowane w: Advanced Energy Materials, Numer Volume 12, Numer 32, 2022, ISSN 1614-6832
Wydawca: Wiley-VCH Verlag
DOI: 10.1002/aenm.202201264

Wyszukiwanie danych OpenAIRE...

Rezultaty

Publikacje

Udostępnij tę stronę Udostępnij tę stronę w mediach społecznościowych

Pobierz Pobierz zawartość strony