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Directly coating a multifunctional interlayer on the cathode via electrospinning for advanced lithium-sulfur batteries

Directly coating a multifunctional interlayer on the cathode via electrospinning for advanced lithium-sulfur batteries
Directly coating a multifunctional interlayer on the cathode via electrospinning for advanced lithium-sulfur batteries
The lithium–sulfur battery is considered as a prospective candidate for a high-energy-storage system because of its high theoretical specific capacity and energy. However, the dissolution and shutter of polysulfides lead to low active material utilization and fast capacity fading. Electrospinning technology is employed to directly coat an interlayer composed of polyacrylonitrile (PAN) and nitrogen-doped carbon black (NC) fibers on the cathode. Benefiting from electrospinning technology, the PAN-NC fibers possess good electrolyte infiltration for fast lithium-ion transport and great flexibility for adhering on the cathode. The NC particles provide good affinity for polysufides and great conductivity. Thus, the polysulfides can be trapped on the cathode and reutilized well. As a result, the PAN-NC-coated sulfur cathode (PAN-NC@cathode) exhibits the initial discharge capacity of 1279 mAh g–1 and maintains the reversible capacity of 1030 mAh g–1 with capacity fading of 0.05% per cycle at 200 mA g–1 after 100 cycles. Adopting electrospinning to directly form fibers on the cathode shows a promising application.
cathode, electrospinning, fibers, interlayer, lithium-sulfur battery, nitrogen-doped carbon
1944-8244
29804-29811
Peng, Yueying
e41317da-f79f-4869-82ce-7c08f2a51368
Zhang, Yiyong
7415da5e-795e-4f95-b621-5c80660aac6b
Wang, Yunhui
b996c61d-a63c-4da2-b1bd-39fac531bb0a
Shen, Xiu
bd125da8-852b-442a-999f-a39cbb16b1eb
Wang, Feng
212ba8ca-88f3-4b94-9bd5-30acaf421a74
Li, He
1d46f87c-8509-43b9-9ee5-eb1065c4de0f
Hwang, Bing Joe
e8627d9b-f368-46ee-9f8b-d93370e8baae
Zhao, Jinbao
40b1eebf-6f3e-4767-a559-39ab8aca25c0
Peng, Yueying
e41317da-f79f-4869-82ce-7c08f2a51368
Zhang, Yiyong
7415da5e-795e-4f95-b621-5c80660aac6b
Wang, Yunhui
b996c61d-a63c-4da2-b1bd-39fac531bb0a
Shen, Xiu
bd125da8-852b-442a-999f-a39cbb16b1eb
Wang, Feng
212ba8ca-88f3-4b94-9bd5-30acaf421a74
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, Wang, Yunhui, Shen, Xiu, Wang, Feng, Li, He, Hwang, Bing Joe and Zhao, Jinbao (2017) Directly coating a multifunctional interlayer on the cathode via electrospinning for advanced lithium-sulfur batteries. ACS Applied Materials and Interfaces, 9 (35), 29804-29811. (doi:10.1021/acsami.7b08804).

Record type: Article

Abstract

The lithium–sulfur battery is considered as a prospective candidate for a high-energy-storage system because of its high theoretical specific capacity and energy. However, the dissolution and shutter of polysulfides lead to low active material utilization and fast capacity fading. Electrospinning technology is employed to directly coat an interlayer composed of polyacrylonitrile (PAN) and nitrogen-doped carbon black (NC) fibers on the cathode. Benefiting from electrospinning technology, the PAN-NC fibers possess good electrolyte infiltration for fast lithium-ion transport and great flexibility for adhering on the cathode. The NC particles provide good affinity for polysufides and great conductivity. Thus, the polysulfides can be trapped on the cathode and reutilized well. As a result, the PAN-NC-coated sulfur cathode (PAN-NC@cathode) exhibits the initial discharge capacity of 1279 mAh g–1 and maintains the reversible capacity of 1030 mAh g–1 with capacity fading of 0.05% per cycle at 200 mA g–1 after 100 cycles. Adopting electrospinning to directly form fibers on the cathode shows a promising application.

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More information

Accepted/In Press date: 16 August 2017
e-pub ahead of print date: 16 September 2017
Published date: 2017
Keywords: cathode, electrospinning, fibers, interlayer, lithium-sulfur battery, nitrogen-doped carbon

Identifiers

Local EPrints ID: 424319
URI: http://eprints.soton.ac.uk/id/eprint/424319
DOI: doi:10.1021/acsami.7b08804
ISSN: 1944-8244
PURE UUID: 0965e91d-8fe5-4d2e-a963-210c61a1969b
ORCID for He Li: ORCID iD orcid.org/0000-0002-5324-8101

Catalogue record

Date deposited: 05 Oct 2018 11:36
Last modified: 11 Nov 2024 18:02

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Contributors

Author: Yueying Peng
Author: Yiyong Zhang
Author: Yunhui Wang
Author: Xiu Shen
Author: Feng Wang
Author: He Li ORCID iD
Author: Bing Joe Hwang
Author: Jinbao Zhao

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