Tin on a carbon paper (CP) was investigated by repeated galvanostatic cycles with time-limited charges to insert different amounts of lithium per Sn atom, and tin electrodeposited on copper was also investigated for comparison of the cyclic stability. The results demonstrated that, unlike Sn electrodeposited on Cu foil, Sn on CP can undergo several ten of lithiathion/delithiation cycles with Li/Sn atomic ratio  2 at high current density (0.70 mA cm-2), thus confirming that carbon paper is a good current collector-substrate which is able even to improve the cycling performance of tin by preserving the electric contact over cycling, in spite of the great volume changes during the lithium insertion/removal processes in tin.
Arbizzani, C., S., B., M., L., Mastragostino, M. (2005). Carbon paper as three dimensional conducting substrate for tin anodes in lithium-ion batteries. JOURNAL OF POWER SOURCES, 141, 149-155 [10.1016/j.jpowsour.2004.09.013].
Carbon paper as three dimensional conducting substrate for tin anodes in lithium-ion batteries
ARBIZZANI, CATIA;MASTRAGOSTINO, MARINA
2005
Abstract
Tin on a carbon paper (CP) was investigated by repeated galvanostatic cycles with time-limited charges to insert different amounts of lithium per Sn atom, and tin electrodeposited on copper was also investigated for comparison of the cyclic stability. The results demonstrated that, unlike Sn electrodeposited on Cu foil, Sn on CP can undergo several ten of lithiathion/delithiation cycles with Li/Sn atomic ratio 2 at high current density (0.70 mA cm-2), thus confirming that carbon paper is a good current collector-substrate which is able even to improve the cycling performance of tin by preserving the electric contact over cycling, in spite of the great volume changes during the lithium insertion/removal processes in tin.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
