Abstract
The influence of preparation pressure and pore-forming additives on the properties of graphite-based, Li{sup +}-intercalating electrodes for ion-transfer batteries have been investigated. The electrochemical performance of graphite electrodes could be improved by adjusting the porosity. Specific charge of >300 Ah/kg (with respect to the graphite mass) could be achieved. (author) 4 figs., 2 refs.
Citation Formats
Novak, P, Scheifele, W, and Haas, O.
Porous graphite electrodes for rechargeable ion-transfer batteries.
Switzerland: N. p.,
1997.
Web.
Novak, P, Scheifele, W, & Haas, O.
Porous graphite electrodes for rechargeable ion-transfer batteries.
Switzerland.
Novak, P, Scheifele, W, and Haas, O.
1997.
"Porous graphite electrodes for rechargeable ion-transfer batteries."
Switzerland.
@misc{etde_492040,
title = {Porous graphite electrodes for rechargeable ion-transfer batteries}
author = {Novak, P, Scheifele, W, and Haas, O}
abstractNote = {The influence of preparation pressure and pore-forming additives on the properties of graphite-based, Li{sup +}-intercalating electrodes for ion-transfer batteries have been investigated. The electrochemical performance of graphite electrodes could be improved by adjusting the porosity. Specific charge of >300 Ah/kg (with respect to the graphite mass) could be achieved. (author) 4 figs., 2 refs.}
place = {Switzerland}
year = {1997}
month = {Jun}
}
title = {Porous graphite electrodes for rechargeable ion-transfer batteries}
author = {Novak, P, Scheifele, W, and Haas, O}
abstractNote = {The influence of preparation pressure and pore-forming additives on the properties of graphite-based, Li{sup +}-intercalating electrodes for ion-transfer batteries have been investigated. The electrochemical performance of graphite electrodes could be improved by adjusting the porosity. Specific charge of >300 Ah/kg (with respect to the graphite mass) could be achieved. (author) 4 figs., 2 refs.}
place = {Switzerland}
year = {1997}
month = {Jun}
}