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AMELIE - Advanced Fluorinated Materials for High Safety, Energy and Calendar Life Lithium Ion Batteries

  • 30061
  • CORDIS - PROJECTS 01/01/2011
  • RISULTATO

The focus of the project is on the development of fluorinated electrolyte/separator and binders in combination with active electrodes (anode LiC6 and cathode: LiNixMn2-xO4 - 4,7V) for high performing, safe and durable Li batteries. The main deliverables of the project are the development of cell prototypes capacity > 10 A.h on which performance assessment will be conducted. The AMELIE prototype performances will be assessed towards the following objectives for EV and PHEV applications: high specific energy: cells >200 Wh/kg, improved life time: > 1000 cycles, 80% DOD for EV applications, High calendar life: > 10 years, high recyclability / recovery/ reuse: battery components 85% recycled and improved competitiveness:The utilization of higher performing “inactive” organic materials (polymers and ionomers) will enable to reduce the amount of the same materials while increasing the energy and power densities of the battery, and consequently decreasing the cost per kWh of the final battery. In addition, the reuse of the components will contribute to the cost reduction of the battery. To this end a complete Life Cycle Analysis of the new battery components will be performed. To take up these challenges, academic and private organisations have partnered up in the AMELIE consortium. As the developments in this field are extremely interconnected, improved Lithium ion batteries for automotive sector can be manufactured only by the synergistic optimisation of all their components: active materials and binders for electrodes, gel polymers, lithium salts and solvents for the ionic conductors. Although innovative materials are a key lever of such improvements, the cell design will be essential for both improved performances and safety.


Start date: 01-01-2011
End date: 31-12-2013
Duration: 36 months
Project Reference: 265910
Project cost: 5219807 EURO
Project Funding: 3526000 EURO
Subprogramme Area: Materials, technologies and processes for sustainable automotive electrochemical storage applications - Joint call.
Contract type: Collaborative project (generic)


Coordinatore: SOLVAY SPECIALTY POLYMERS ITALY S.P.A. -BOLLATE (MI) - ITALIA - Vincenzo ARCELLA (Mr)

Altri Partecipanti

  • COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES - PARIS 15 (FRANCE)
  • INSTITUT POLYTECHNIQUE DE GRENOBLE - GRENOBLE CEDEX 1 (FRANCE)
  • ALMA MATER STUDIORUM-UNIVERSITA DI BOLOGNA -BOLOGNA (ITALIA)
  • RENAULT S.A.S. REPRESENTED BY GIE REGIENOV - BOULOGNE BILLANCOURT (FRANCE)
  • WESTFAELISCHE WILHELMS-UNIVERSITAET MUENSTER- MUENSTER (DEUTSCHLAND)
  • VOLVO TECHNOLOGY AB - GOETEBORG (SVERIGE)
  • PRAYON S.A - ENGIS (BELGIQUE)
  • ERAS LABO SARL - SAINT NAZAIRE LES EYMES (FRANCE)
  • KIEV NATIONAL UNIVERSITY OF TECHNOLOGIES AND DESIGN - KIEV (UKRAINE)
  • TEMIC AUTOMOTIVE ELECTRIC MOTORS GMBH - BERLIN (DEUTSCHLAND)
  • RECUPYL SAS - DOMENE (FRANCE)
Quadro di finanziamento
  • 7FP-NMP : NANOSCIENZE, NANOTECNOLOGIE, MATERIALI E NUOVE TECNOLOGIE DI PRODUZIONE: priorità tematica 4 nell'ambito del programma specifico “Cooperazione” recante attuazione del Settimo programma quadro (2007-2013) di attività comunitarie di ricerca, sviluppo tecnologico e dimostrazione
Area di interesse
  • Unione Europea