Nitrogen and oxygen dual-doped hollow carbon nanospheres derived from catechol/polyamine as sulfur hosts for advanced lithium sulfur batteries
Nitrogen and oxygen dual-doped hollow carbon nanospheres derived from catechol/polyamine as sulfur hosts for advanced lithium sulfur batteries
Although lithium-sulfur batteries are considered as promising high-energy-storage system owing to their high energy density, developing effective materials to host sulfur species on the cathode is still challenging. Herein, an inexpensive and effective carbon precursor, catechol and polyamine is explored to fabricate nitrogen/oxygen dual-doped hollow carbon nanospheres (DHCSs) as sulfur hosts. The group containing nitrogen and oxygen can provide stronger chemisorption for lithium polysulfides than single-doped carbon matrix, which is confirmed by X-ray photoelectron spectroscopy analysis and the theoretical calculation. As a result, the designed sulfur/DHCSs cathode delivers a stable cycling performance remained 851 mAh g−1discharge capacity at 0.2 C with ∼0.08% capacity decay per cycle after 200 cycles, revealing its great promise for energy storage application.
23-33
Peng, Yueying
e41317da-f79f-4869-82ce-7c08f2a51368
Zhang, Yiyong
7415da5e-795e-4f95-b621-5c80660aac6b
Huang, Jianxing
7bddb9d6-a21b-4443-8ec1-a4c2095fbed3
Wang, Yunhui
b996c61d-a63c-4da2-b1bd-39fac531bb0a
Li, He
1d46f87c-8509-43b9-9ee5-eb1065c4de0f
Hwang, Bing Joe
e8627d9b-f368-46ee-9f8b-d93370e8baae
Zhao, Jinbao
40b1eebf-6f3e-4767-a559-39ab8aca25c0
1 November 2017
Peng, Yueying
e41317da-f79f-4869-82ce-7c08f2a51368
Zhang, Yiyong
7415da5e-795e-4f95-b621-5c80660aac6b
Huang, Jianxing
7bddb9d6-a21b-4443-8ec1-a4c2095fbed3
Wang, Yunhui
b996c61d-a63c-4da2-b1bd-39fac531bb0a
Li, He
1d46f87c-8509-43b9-9ee5-eb1065c4de0f
Hwang, Bing Joe
e8627d9b-f368-46ee-9f8b-d93370e8baae
Zhao, Jinbao
40b1eebf-6f3e-4767-a559-39ab8aca25c0
Peng, Yueying, Zhang, Yiyong, Huang, Jianxing, Wang, Yunhui, Li, He, Hwang, Bing Joe and Zhao, Jinbao
(2017)
Nitrogen and oxygen dual-doped hollow carbon nanospheres derived from catechol/polyamine as sulfur hosts for advanced lithium sulfur batteries.
Carbon, 124, .
(doi:10.1016/j.carbon.2017.08.035).
Abstract
Although lithium-sulfur batteries are considered as promising high-energy-storage system owing to their high energy density, developing effective materials to host sulfur species on the cathode is still challenging. Herein, an inexpensive and effective carbon precursor, catechol and polyamine is explored to fabricate nitrogen/oxygen dual-doped hollow carbon nanospheres (DHCSs) as sulfur hosts. The group containing nitrogen and oxygen can provide stronger chemisorption for lithium polysulfides than single-doped carbon matrix, which is confirmed by X-ray photoelectron spectroscopy analysis and the theoretical calculation. As a result, the designed sulfur/DHCSs cathode delivers a stable cycling performance remained 851 mAh g−1discharge capacity at 0.2 C with ∼0.08% capacity decay per cycle after 200 cycles, revealing its great promise for energy storage application.
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Accepted/In Press date: 19 August 2017
e-pub ahead of print date: 22 August 2017
Published date: 1 November 2017
Identifiers
Local EPrints ID: 424328
URI: http://eprints.soton.ac.uk/id/eprint/424328
ISSN: 0008-6223
PURE UUID: ec51ef0c-dde5-4efe-b126-0da7243f04f8
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Date deposited: 05 Oct 2018 11:36
Last modified: 15 Mar 2024 21:32
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Author:
Yueying Peng
Author:
Yiyong Zhang
Author:
Jianxing Huang
Author:
Yunhui Wang
Author:
He Li
Author:
Bing Joe Hwang
Author:
Jinbao Zhao
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