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JOURNAL ARTICLE

An Intrinsic Flame‐Retardant Organic Electrolyte for Safe Lithium‐Sulfur Batteries

Huijun YangCheng GuoJiahang ChenAhmad NaveedJun YangYanna NuLiJiulin Wang

Year: 2018 Journal:   Angewandte Chemie Vol: 131 (3)Pages: 801-805   Publisher: Wiley
DOI: 10.1002/ange.201811291
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Abstract

Abstract Safety concerns pose a significant challenge for the large‐scale employment of lithium–sulfur batteries. Extremely flammable conventional electrolytes and dendritic lithium deposition cause severe safety issues. Now, an intrinsic flame‐retardant (IFR) electrolyte is presented consisting of 1.1 m lithium bis(fluorosulfonyl)imide in a solvent mixture of flame‐retardant triethyl phosphate and high flashpoint solvent 1,1,2,2‐tetrafluoroethyl‐2,2,3,3‐tetrafluoropropyl (1:3, v/v) for safe lithium–sulfur (Li−S) batteries. This electrolyte exhibits favorable flame‐retardant properties and high reversibility of the lithium metal anode (Coulombic efficiency >99 %). This IFR electrolyte enables stable lithium plating/stripping behavior with micro‐sized and dense‐packing lithium deposition at high temperatures. When coupled with a sulfurized pyrolyzed poly(acrylonitrile) cathode, Li−S batteries deliver a high composite capacity (840.1 mAh g −1 ) and high sulfur utilization of 95.6 %.

Keywords:
Electrolyte Fire retardant Faraday efficiency Lithium (medication) Inorganic chemistry Anode Materials science Chemical engineering Lithium–sulfur battery Cathode Chemistry Composite material Electrode

Metrics

26
Cited By
2.82
FWCI (Field Weighted Citation Impact)
48
Refs
0.92
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Advanced Battery Materials and Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advancements in Battery Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advanced Battery Technologies Research
Physical Sciences →  Engineering →  Automotive Engineering

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