Abstract
The lithium-polymer energy storage technology requires the production of thin films of huge surface. The BT-EdF-CEA consortium has studied the various manufacturing techniques of these films and their assembly. The process was chosen according to its productivity, low expensiveness, ecological impact and energy performances with capacities reaching 40 Ah. This paper explains: the objectives and specifications of the project, the advantage of the consortium and the role of the different partners, the results (coating, dry extrusion and battery element manufacturing techniques), and the electrochemical performances of the elements. (J.S.)
Marginedes, D;
Majastre, H;
[1]
Baudry, P;
Lascaud, S;
[2]
Bloch, D;
Lebrun, N
[3]
- Bollore Technologies, 29 - Quimper (France)
- Electricite de France, 77 - Moret sur Loing (France). Direction des Etudes et Recherches
- CEA Grenoble, CEREM, 38 (France)
Citation Formats
Marginedes, D, Majastre, H, Baudry, P, Lascaud, S, Bloch, D, and Lebrun, N.
Progress of the BT-EdF-CEA project. The lithium polymer battery; Avancees du projet BT-EdF-CEA. Batterie lithium polymere.
France: N. p.,
1996.
Web.
Marginedes, D, Majastre, H, Baudry, P, Lascaud, S, Bloch, D, & Lebrun, N.
Progress of the BT-EdF-CEA project. The lithium polymer battery; Avancees du projet BT-EdF-CEA. Batterie lithium polymere.
France.
Marginedes, D, Majastre, H, Baudry, P, Lascaud, S, Bloch, D, and Lebrun, N.
1996.
"Progress of the BT-EdF-CEA project. The lithium polymer battery; Avancees du projet BT-EdF-CEA. Batterie lithium polymere."
France.
@misc{etde_333973,
title = {Progress of the BT-EdF-CEA project. The lithium polymer battery; Avancees du projet BT-EdF-CEA. Batterie lithium polymere}
author = {Marginedes, D, Majastre, H, Baudry, P, Lascaud, S, Bloch, D, and Lebrun, N}
abstractNote = {The lithium-polymer energy storage technology requires the production of thin films of huge surface. The BT-EdF-CEA consortium has studied the various manufacturing techniques of these films and their assembly. The process was chosen according to its productivity, low expensiveness, ecological impact and energy performances with capacities reaching 40 Ah. This paper explains: the objectives and specifications of the project, the advantage of the consortium and the role of the different partners, the results (coating, dry extrusion and battery element manufacturing techniques), and the electrochemical performances of the elements. (J.S.)}
place = {France}
year = {1996}
month = {Dec}
}
title = {Progress of the BT-EdF-CEA project. The lithium polymer battery; Avancees du projet BT-EdF-CEA. Batterie lithium polymere}
author = {Marginedes, D, Majastre, H, Baudry, P, Lascaud, S, Bloch, D, and Lebrun, N}
abstractNote = {The lithium-polymer energy storage technology requires the production of thin films of huge surface. The BT-EdF-CEA consortium has studied the various manufacturing techniques of these films and their assembly. The process was chosen according to its productivity, low expensiveness, ecological impact and energy performances with capacities reaching 40 Ah. This paper explains: the objectives and specifications of the project, the advantage of the consortium and the role of the different partners, the results (coating, dry extrusion and battery element manufacturing techniques), and the electrochemical performances of the elements. (J.S.)}
place = {France}
year = {1996}
month = {Dec}
}