A facile synthetic approach to nanostructured Li2S cathodes for rechargeable solid-state Li-S batteries

Hany El-Shinawi; Edmund J. Cussen; Serena A. Corr

doi:10.1039/c9nr06239d

A facile synthetic approach to nanostructured Li₂S cathodes for rechargeable solid-state Li-S batteries

Hany El-Shinawi
, Edmund J. Cussen
, Serena A. Corr

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

Abstract

Li-S solid state batteries, employing Li₂S as a pre-lithiated cathode, present a promising low cost, high capacity and safer alternative to their liquid electrolyte counterparts, where dissolution of intermediate polysulfide species can result in loss of active material and a subsequent decrease in ionic conductivity. A nanostructured Li₂S material would afford greater flexibility in optimising the cathode composite for more harmonious electrode-electrolyte interactions, yet facile routes to such nanoscale materials are limited. Here, we report a facile and scalable microwave approach to directly synthesize nanostructured Li₂S from a glyme solution containing lithium polysulfides. As-synthesized Li₂S presents an ideal architecture for the construction of free-standing cathodes for all-solid-state Li-S batteries.

Original language	English
Pages (from-to)	19297-19300
Number of pages	4
Journal	Nanoscale
Volume	11
Issue number	41
DOIs	https://doi.org/10.1039/c9nr06239d
Publication status	Published - 7 Nov 2019
Externally published	Yes

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abstract = "Li-S solid state batteries, employing Li2S as a pre-lithiated cathode, present a promising low cost, high capacity and safer alternative to their liquid electrolyte counterparts, where dissolution of intermediate polysulfide species can result in loss of active material and a subsequent decrease in ionic conductivity. A nanostructured Li2S material would afford greater flexibility in optimising the cathode composite for more harmonious electrode-electrolyte interactions, yet facile routes to such nanoscale materials are limited. Here, we report a facile and scalable microwave approach to directly synthesize nanostructured Li2S from a glyme solution containing lithium polysulfides. As-synthesized Li2S presents an ideal architecture for the construction of free-standing cathodes for all-solid-state Li-S batteries.",

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AU - Cussen, Edmund J.

AU - Corr, Serena A.

PY - 2019/11/7

Y1 - 2019/11/7

N2 - Li-S solid state batteries, employing Li2S as a pre-lithiated cathode, present a promising low cost, high capacity and safer alternative to their liquid electrolyte counterparts, where dissolution of intermediate polysulfide species can result in loss of active material and a subsequent decrease in ionic conductivity. A nanostructured Li2S material would afford greater flexibility in optimising the cathode composite for more harmonious electrode-electrolyte interactions, yet facile routes to such nanoscale materials are limited. Here, we report a facile and scalable microwave approach to directly synthesize nanostructured Li2S from a glyme solution containing lithium polysulfides. As-synthesized Li2S presents an ideal architecture for the construction of free-standing cathodes for all-solid-state Li-S batteries.

AB - Li-S solid state batteries, employing Li2S as a pre-lithiated cathode, present a promising low cost, high capacity and safer alternative to their liquid electrolyte counterparts, where dissolution of intermediate polysulfide species can result in loss of active material and a subsequent decrease in ionic conductivity. A nanostructured Li2S material would afford greater flexibility in optimising the cathode composite for more harmonious electrode-electrolyte interactions, yet facile routes to such nanoscale materials are limited. Here, we report a facile and scalable microwave approach to directly synthesize nanostructured Li2S from a glyme solution containing lithium polysulfides. As-synthesized Li2S presents an ideal architecture for the construction of free-standing cathodes for all-solid-state Li-S batteries.

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JF - Nanoscale

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A facile synthetic approach to nanostructured Li2S cathodes for rechargeable solid-state Li-S batteries

Abstract

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A facile synthetic approach to nanostructured Li₂S cathodes for rechargeable solid-state Li-S batteries