The effect of V2O5/C additive on the suppression of polysulfide dissolution in Li-sulfur batteries

Authors
Kim, Min-SeopShin, Eon SungKim, Jung-SikCho, Won IlOh, Si Hyoung
Issue Date
2014-12
Publisher
SPRINGER
Citation
JOURNAL OF ELECTROCERAMICS, v.33, no.3-4, pp.142 - 148
Abstract
The effect of adding a V2O5/carbon nano-composite to the cathode of a Li-sulfur battery on suppressing the polysulfide dissolution phenomenon was evaluated by comparing the amount of overcharge at the first discharge-charge processes. V2O5/carbon nano-composite was manufactured by forming V2O5 a <...H2O xerogel on the carbon black through a simple wet process. This provides a high surface area with plenty of hydrophilic moieties that can capture and store soluble polysulfides on its surface during the discharge-charge reactions, and also partly contributes to suppressing the excessive formation of Li2S which undergoes a large volume change during the cycling. From the electrochemical results, we could observe a significant reduction in the overcharge amount and improved cyclic performance by adding as little as 2 % of the nano-composite. UV-VIS spectra measured after a small addition of the nano-composite to the solution containing Li2S6 polysulfide also confirmed that the V2O5/carbon nano-composite is highly effective in capturing long-chain polysulfides on its surface.
Keywords
CARBON; PERFORMANCE; CATHODE; ELECTROLYTE; CARBON; PERFORMANCE; CATHODE; ELECTROLYTE; Vanadium oxide; Carbon; Xerogel; Polysulfide; Li-S battery
ISSN
1385-3449
URI
https://pubs.kist.re.kr/handle/201004/126070
DOI
10.1007/s10832-014-9973-6
Appears in Collections:
KIST Article > 2014
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