Influence of void-size distribution of anode film made of natural graphite particles on high rate discharge capability of lithium-ion battery

The relationship was experimentally investigated between void-size distribution of anode film made of natural graphite particles for lithium-ion batteries and high rate discharge capability. The high rate discharge capability improved, as the modal void diameter increased. Thus, it was considered th...

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Veröffentlicht in:	TANSO 2004/06/15, Vol.2004(213), pp.140-143
Hauptverfasser:	Ohzeki, Katsutomo, Ohsaki, Yoshie, Golman, Boris, Shinohara, Kunio
Format:	Artikel
Sprache:	eng
Schlagworte:	High rate capability Lithium-ion battery Natural graphite Void-size distribution
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container_title	TANSO
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creator	Ohzeki, Katsutomo Ohsaki, Yoshie Golman, Boris Shinohara, Kunio
description	The relationship was experimentally investigated between void-size distribution of anode film made of natural graphite particles for lithium-ion batteries and high rate discharge capability. The high rate discharge capability improved, as the modal void diameter increased. Thus, it was considered that lithium-ion diffuses in the electrolyte liquid penetrating through the voids among the particles in the electrode film due to the gradient of lithium-ion concentration. While, the modal diameter of voids increased for graphite powders of higher tapping density. Therefore, it was found that the tapping density was a useful indicator for the graphite particles to yield the film of high rate discharge capability in practical use.
doi_str_mv	10.7209/tanso.2004.140
format	Article
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subjects	High rate capability Lithium-ion battery Natural graphite Void-size distribution
title	Influence of void-size distribution of anode film made of natural graphite particles on high rate discharge capability of lithium-ion battery
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