The recent announcement of the launch in the market of a new type of lithium-ion battery has instilled new life in the R&D of innovative electrode materials and, in particular on multi-component, tin-based, nanostructured lithium metal storage anodes. Following this trend, we have synthesized by high energy ball milling a Sn–Co–C ternary compound of composition supposedly similar to that used in the new commercial battery. We have tested this material as an electrode in a single lithium cells, as well as in an original, complete lithium- ion battery configuration. The results demonstrate the promising feature of this compound as innovative, high-capacity lithium-ion electrode.
Ternary Sn-Co-CLi-ion battery electrode material prepared by high energy ball milling / Hassoun, J; Mulas, Gabriele Raimondo Celestino Ettore; Panero, S; Scrosati, B.. - In: ELECTROCHEMISTRY COMMUNICATIONS. - ISSN 1388-2481. - 9:8(2007), pp. 2075-2081. [10.1016/j.elecom.2007.05.033]
Ternary Sn-Co-CLi-ion battery electrode material prepared by high energy ball milling
MULAS, Gabriele Raimondo Celestino Ettore;
2007
Abstract
The recent announcement of the launch in the market of a new type of lithium-ion battery has instilled new life in the R&D of innovative electrode materials and, in particular on multi-component, tin-based, nanostructured lithium metal storage anodes. Following this trend, we have synthesized by high energy ball milling a Sn–Co–C ternary compound of composition supposedly similar to that used in the new commercial battery. We have tested this material as an electrode in a single lithium cells, as well as in an original, complete lithium- ion battery configuration. The results demonstrate the promising feature of this compound as innovative, high-capacity lithium-ion electrode.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
