INFLUENCE
Interfaces of Fluid Electrodes: New Conceptual Explorations
| Coordinatore | VLAAMSE INSTELLING VOOR TECHNOLOGISCH ONDERZOEK N.V.
Organization address
address: Boeretang 200 contact info |
| Nazionalità Coordinatore | Belgium [BE] |
| Totale costo | 3˙500˙946 € |
| EC contributo | 2˙588˙583 € |
| Programma | FP7-ENERGY
Specific Programme "Cooperation": Energy |
| Code Call | FP7-ENERGY-2013-1 |
| Funding Scheme | CP |
| Anno di inizio | 2013 |
| Periodo (anno-mese-giorno) | 2013-09-01 - 2016-08-31 |
Partecipanti
| # | ||||
|---|---|---|---|---|
| 1 |
VLAAMSE INSTELLING VOOR TECHNOLOGISCH ONDERZOEK N.V.
Organization address
address: Boeretang 200 contact info |
BE (MOL) | coordinator | 513˙747.00 |
| 2 |
UNIVERSITEIT TWENTE
Organization address
address: DRIENERLOLAAN 5 contact info |
NL (ENSCHEDE) | participant | 483˙600.00 |
| 3 |
Karlsruher Institut fuer Technologie
Organization address
address: Kaiserstrasse 12 contact info |
DE (Karlsruhe) | participant | 465˙040.00 |
| 4 |
FUNDACIO INSTITUT DE RECERCA DE L'ENERGIA DE CATALUNYA
Organization address
address: C/ JARDINS DE LES DONES DE NEGRE 1 contact info |
ES (SANT ADRIA DE BESOS) | participant | 383˙767.00 |
| 5 |
SOLVIONIC SA
Organization address
address: Chemin de la Loge- Site SNPE contact info |
FR (Toulouse) | participant | 207˙526.00 |
| 6 |
6T-MIC INGENIERIES
Organization address
address: RUE BRINDEJONC DES MOULINAIS 4 contact info |
FR (TOULOUSE) | participant | 199˙949.00 |
| 7 |
ECKART GMBH
Organization address
address: GUNTERSTHAL 4 contact info |
DE (HARTENSTEIN) | participant | 193˙750.00 |
| 8 |
IMPERIAL COLLEGE OF SCIENCE, TECHNOLOGY AND MEDICINE
Organization address
address: SOUTH KENSINGTON CAMPUS EXHIBITION ROAD contact info |
UK (LONDON) | participant | 141˙204.00 |
| 9 |
WESTFAELISCHE WILHELMS-UNIVERSITAET MUENSTER
Organization address
address: SCHLOSSPLATZ 2 contact info |
DE (MUENSTER) | participant | 0.00 |
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Obiettivo del progetto (Objective)
'The project proposal InFluENCE aims at improving the fundamental understanding and control of interfaces of a battery type based on Li-ion and Na-ion active materials: semi solid flow batteries (SSFB). The fact that the case study will be a SSFB set-up instead of classic lithium ion batteries is an asset, given that the methods and techniques developed are generic and could as well be implemented for conventional Li- and Na-ion systems for the techniques that are not concentrated on flow aspects. A main objective is the investigation and optimization of the interfaces developing between the electrolyte and the electrochemically active material particles in fluid electrodes. The acquired knowledge would allow the chemical and morphological optimization of active materials as well as the design of optimized interfacial layers (also called artificial Solid Electrolyte Interfaces, art-SEI) capable of warrant stable interfaces. A second main objective is the understanding and control the mechanical and conductive behaviours of the slurries. For this, it is necessary to determine the role of shape anisotropy and the overall nature (attractive or repulsive) of the short ranged interactions of the active materials besides the strength of the attractive forces for conductive nano-particles. The cross interaction should allow intimate contact between active material and the conductive particles. The experimental work is accompanied by thorough modelling to understand the physical phenomena occurring at the microscopic scale, to derive scaling rules towards macro-scale and to enable design recommendations leading to optimal interface behaviour (size of anodic and cathodic compartments, geometry of collectors, etc.).'