Article ID Journal Published Year Pages File Type
1289023 Journal of Power Sources 2010 5 Pages PDF
Abstract

A spherical carbon material of meso-carbon microbead (MCMB) was examined as an anode in a polyethylene oxide (PEO) based polymer electrolyte lithium battery. The electrochemical performance of the carbon electrode with the polymer electrolyte depended on the electrode thickness and the particle size of MCMB. The 30 μm-thick electrode of MCMB with the particle size of 20–30 μm showed a reversible capacity comparable with that in a liquid electrolyte, but the 100 μm-thick electrode showed a half of the 30 μm-thick electrode. The smaller particle size of 5–8 μm exhibited a high irreversible capacity at the first charge–discharge cycle. The reaction heat between MCMB and the polymer electrolyte was 0.5 J mAh−1, which was much lower compared to those between lithium metal and the polymer electrolyte, 1.2 J mAh−1, and MCMB and conventional liquid electrolyte, 4.3 J mAh−1.

Related Topics
Physical Sciences and Engineering Chemistry Electrochemistry
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