Promoting performance of lithium–sulfur battery via in situ sulfur reduced graphite oxide coating-Reference-Cited by-同舟云学术

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Promoting performance of lithium–sulfur battery via in situ sulfur reduced graphite oxide coating

Published:2020-07-17 Issue:2 Volume:40 Page:417-424
ISSN:1001-0521
Container-title:Rare Metals
language:en
Short-container-title:Rare Met.

Author:

Li Yuan,Guo Xiao-Tian,Zhang Song-Tao^ORCID,Pang Huan^ORCID

Publisher

Springer Science and Business Media LLC

Subject

Materials Chemistry,Metals and Alloys,Physical and Theoretical Chemistry,Condensed Matter Physics

Link

https://link.springer.com/content/pdf/10.1007/s12598-020-01498-y.pdf

Reference39 articles.

1. Manthiram A, Fu Y, Chung SH, Zu C, Su YS. Rechargeable lithium–sulfur batteries. Chem Rev. 2014;114(23):11751.

2. Li M, Zhang Y, Bai Z, Liu WW, Liu T, Gim J, Jiang G, Yuan Y, Luo D, Feng K, Yassar RS, Wang X, Chen Z, Lu J. A lithium–sulfur battery using a 2D current collector architecture with a large-sized sulfur host operated under high areal loading and low E/S ratio. Adv Mater. 2018;30(46):1804271.

3. Zheng S, Li X, Yan B, Hu Q, Xu Y, Xiao X, Xue H, Pang H. Transition-metal (Fe Co, Ni) based metal-organic frameworks for electrochemical energy storage. Adv Energy Mater. 2017;7(18):1602733.

4. Zheng M, Tang H, Li L, Hu Q, Zhang L, Xue H, Pang H. Hierarchically nanostructured transition metal oxides for lithium-ion batteries. Adv Sci. 2018;5(3):1700592.

5. Ye Y, Wu F, Xu S, Qu W, Li L, Chen R. Designing realizable and scalable techniques for practical lithium sulfur batteries: a perspective. J Phys Chem Lett. 2018;9(6):1398.

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