High rate and stable cycling of lithium-sulfur batteries with carbon fiber cloth interlayer

Yuxiang Yang; Wang Sun; Jing Zhang; Xinyang Yue; Zhenhua Wang; Kening Sun

doi:10.1016/j.electacta.2016.05.092

High rate and stable cycling of lithium-sulfur batteries with carbon fiber cloth interlayer

Yuxiang Yang, Wang Sun^*, Jing Zhang, Xinyang Yue, Zhenhua Wang, Kening Sun

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Research output: Contribution to journal › Article › peer-review

75 Citations (Scopus)

Abstract

Significant efforts have been made to eliminate the shuttle effect created by the surface modification of separator or by adding interlayers. However, much of the research so far requires elaborate and costly material processing steps that did not necessarily result in substantially improved cell performances. In this contribution, a three-dimensional carbon fiber cloth (CFC) is placed between the separator and the sulfur cathode to accommodate and capture the soluble polysulfide intermediates. The cells with this interlayer show an initial discharge capacity of 6.89 mAh cm^-2, which remains substantial after 100 cycles at 1C (6.69 mAh cm^-2). CFC interlayers provide an efficient and cost effective route for developing promising lithium-sulfur batteries with long cycle stability and good rate capability.

Original language	English
Pages (from-to)	691-699
Number of pages	9
Journal	Electrochimica Acta
Volume	209
DOIs	https://doi.org/10.1016/j.electacta.2016.05.092
Publication status	Published - 10 Aug 2016

Keywords

carbon fiber cloth
good rate capability
interlayer
lithium-sulfur battery
long cycle stability

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10.1016/j.electacta.2016.05.092

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title = "High rate and stable cycling of lithium-sulfur batteries with carbon fiber cloth interlayer",

abstract = "Significant efforts have been made to eliminate the shuttle effect created by the surface modification of separator or by adding interlayers. However, much of the research so far requires elaborate and costly material processing steps that did not necessarily result in substantially improved cell performances. In this contribution, a three-dimensional carbon fiber cloth (CFC) is placed between the separator and the sulfur cathode to accommodate and capture the soluble polysulfide intermediates. The cells with this interlayer show an initial discharge capacity of 6.89 mAh cm-2, which remains substantial after 100 cycles at 1C (6.69 mAh cm-2). CFC interlayers provide an efficient and cost effective route for developing promising lithium-sulfur batteries with long cycle stability and good rate capability.",

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T1 - High rate and stable cycling of lithium-sulfur batteries with carbon fiber cloth interlayer

AU - Yang, Yuxiang

AU - Sun, Wang

AU - Zhang, Jing

AU - Yue, Xinyang

AU - Wang, Zhenhua

AU - Sun, Kening

PY - 2016/8/10

Y1 - 2016/8/10

N2 - Significant efforts have been made to eliminate the shuttle effect created by the surface modification of separator or by adding interlayers. However, much of the research so far requires elaborate and costly material processing steps that did not necessarily result in substantially improved cell performances. In this contribution, a three-dimensional carbon fiber cloth (CFC) is placed between the separator and the sulfur cathode to accommodate and capture the soluble polysulfide intermediates. The cells with this interlayer show an initial discharge capacity of 6.89 mAh cm-2, which remains substantial after 100 cycles at 1C (6.69 mAh cm-2). CFC interlayers provide an efficient and cost effective route for developing promising lithium-sulfur batteries with long cycle stability and good rate capability.

AB - Significant efforts have been made to eliminate the shuttle effect created by the surface modification of separator or by adding interlayers. However, much of the research so far requires elaborate and costly material processing steps that did not necessarily result in substantially improved cell performances. In this contribution, a three-dimensional carbon fiber cloth (CFC) is placed between the separator and the sulfur cathode to accommodate and capture the soluble polysulfide intermediates. The cells with this interlayer show an initial discharge capacity of 6.89 mAh cm-2, which remains substantial after 100 cycles at 1C (6.69 mAh cm-2). CFC interlayers provide an efficient and cost effective route for developing promising lithium-sulfur batteries with long cycle stability and good rate capability.

KW - carbon fiber cloth

KW - good rate capability

KW - interlayer

KW - lithium-sulfur battery

KW - long cycle stability

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JO - Electrochimica Acta

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High rate and stable cycling of lithium-sulfur batteries with carbon fiber cloth interlayer

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Keywords

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