High sulfur-containing carbon polysulfide polymer as a novel cathode material for lithium-sulfur battery
High sulfur-containing carbon polysulfide polymer as a novel cathode material for lithium-sulfur battery
The lithium-sulfur battery, which offers a high energy density and is environmental friendly, is a promising next generation of rechargeable energy storage system. However, despite these attractive attributes, the commercialization of lithium-sulfur battery is primarily hindered by the parasitic reactions between the Li metal anode and dissolved polysulfide species from the cathode during the cycling process. Herein, we synthesize the sulfur-rich carbon polysulfide polymer and demonstrate that it is a promising cathode material for high performance lithium-sulfur battery. The electrochemical studies reveal that the carbon polysulfide polymer exhibits superb reversibility and cycle stability. This is due to that the well-designed structure of the carbon polysulfide polymer has several advantages, especially, the strong chemical interaction between sulfur and the carbon framework (C-S bonds) inhibits the shuttle effect and the π electrons of the carbon polysulfide compound enhance the transfer of electrons and Li+. Furthermore, as-prepared carbon polysulfide polymer-graphene hybrid cathode achieves outstanding cycle stability and relatively high capacity. This work highlights the potential promise of the carbon polysulfide polymer as the cathode material for high performance lithium-sulfur battery.
Zhang, Yiyong
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Peng, Yueying
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Wang, Yunhui
b996c61d-a63c-4da2-b1bd-39fac531bb0a
Li, Jiyang
ed6ad869-2dbe-4832-8940-2318aa714a1d
Li, He
1d46f87c-8509-43b9-9ee5-eb1065c4de0f
Zeng, Jing
1d472ee2-f0e6-4c78-a02a-b1d76cb372bd
Wang, Jing
7b257360-2330-42cc-9823-16162bc39fea
Hwang, Bing Joe
e8627d9b-f368-46ee-9f8b-d93370e8baae
Zhao, Jinbao
40b1eebf-6f3e-4767-a559-39ab8aca25c0
1 December 2017
Zhang, Yiyong
7415da5e-795e-4f95-b621-5c80660aac6b
Peng, Yueying
e41317da-f79f-4869-82ce-7c08f2a51368
Wang, Yunhui
b996c61d-a63c-4da2-b1bd-39fac531bb0a
Li, Jiyang
ed6ad869-2dbe-4832-8940-2318aa714a1d
Li, He
1d46f87c-8509-43b9-9ee5-eb1065c4de0f
Zeng, Jing
1d472ee2-f0e6-4c78-a02a-b1d76cb372bd
Wang, Jing
7b257360-2330-42cc-9823-16162bc39fea
Hwang, Bing Joe
e8627d9b-f368-46ee-9f8b-d93370e8baae
Zhao, Jinbao
40b1eebf-6f3e-4767-a559-39ab8aca25c0
Zhang, Yiyong, Peng, Yueying, Wang, Yunhui, Li, Jiyang, Li, He, Zeng, Jing, Wang, Jing, Hwang, Bing Joe and Zhao, Jinbao
(2017)
High sulfur-containing carbon polysulfide polymer as a novel cathode material for lithium-sulfur battery.
Scientific Reports, 7, [11386].
(doi:10.1038/s41598-017-11922-6).
Abstract
The lithium-sulfur battery, which offers a high energy density and is environmental friendly, is a promising next generation of rechargeable energy storage system. However, despite these attractive attributes, the commercialization of lithium-sulfur battery is primarily hindered by the parasitic reactions between the Li metal anode and dissolved polysulfide species from the cathode during the cycling process. Herein, we synthesize the sulfur-rich carbon polysulfide polymer and demonstrate that it is a promising cathode material for high performance lithium-sulfur battery. The electrochemical studies reveal that the carbon polysulfide polymer exhibits superb reversibility and cycle stability. This is due to that the well-designed structure of the carbon polysulfide polymer has several advantages, especially, the strong chemical interaction between sulfur and the carbon framework (C-S bonds) inhibits the shuttle effect and the π electrons of the carbon polysulfide compound enhance the transfer of electrons and Li+. Furthermore, as-prepared carbon polysulfide polymer-graphene hybrid cathode achieves outstanding cycle stability and relatively high capacity. This work highlights the potential promise of the carbon polysulfide polymer as the cathode material for high performance lithium-sulfur battery.
Text
s41598-017-11922-6
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Accepted/In Press date: 25 August 2017
e-pub ahead of print date: 12 September 2017
Published date: 1 December 2017
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Local EPrints ID: 424315
URI: http://eprints.soton.ac.uk/id/eprint/424315
ISSN: 2045-2322
PURE UUID: 7ae8d43c-b3d5-4cbe-8c09-67b070e0360d
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Date deposited: 05 Oct 2018 11:36
Last modified: 15 Mar 2024 21:32
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Author:
Yiyong Zhang
Author:
Yueying Peng
Author:
Yunhui Wang
Author:
Jiyang Li
Author:
He Li
Author:
Jing Zeng
Author:
Jing Wang
Author:
Bing Joe Hwang
Author:
Jinbao Zhao
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