A strontium ferrite modified separator for adsorption and catalytic conversion of polysulfides for excellent lithium-sulfur batteries

Lithium-sulfur batteries (LSBs) have emerged as one of the ideal contenders for the upcoming generation of high energy storage devices due to their superb energy density. Nonetheless, the shuttle effect generated by intermediate lithium polysulfides (LiPSs) during cell cycling brings about capacity...

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Veröffentlicht in:Dalton transactions : an international journal of inorganic chemistry 2023-07, Vol.52 (26), p.932-941
Hauptverfasser: Su, Zhuoying, Qiu, Wenjuan, He, Yuming, Zeng, Ying, Xie, Dongming, Xiao, Xin, Nan, Junmin, Zuo, Xiaoxi
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Sprache:eng
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Zusammenfassung:Lithium-sulfur batteries (LSBs) have emerged as one of the ideal contenders for the upcoming generation of high energy storage devices due to their superb energy density. Nonetheless, the shuttle effect generated by intermediate lithium polysulfides (LiPSs) during cell cycling brings about capacity degradation and poor cycling stability of LSBs. Here, a versatile SrFe 12 O 19 (FSO) and acetylene black (AB) modified PP separator is first presented to inhibit the shuttle effect. Thanks to the strong chemical interaction of Fe and Sr with polysulphides in FSO, it can trap LiPSs and provide catalytic sites for their conversion. Therefore, the cell using the FSO/AB@PP separator has a high initial discharge specific capacity (930 mA h g −1 ) at 2 C and lasts for 1000 cycles with a remarkably low fading rate (0.036% per cycle), while those using PE and AB@PP separators have inferior initial specific capacities (255 mA h g −1 and 652 mA h g −1 , respectively) and fail within 600 cycles. This work proposes a novel approach for addressing the shuttle of LiPSs from a bimetallic oxide modified separator. Bimetallic oxide SrFe 12 O 19 /AB composite separator regulates lithium polysulfides to realize sustainable lithium-sulfur batteries.
ISSN:1477-9226
1477-9234
DOI:10.1039/d3dt01126g