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The free-standing cathode fabricated with nano-CoSe2 embedded in mesoporous carbon nanosheets towards high performance Li/SeS2 batteries

电池(电) 纳米技术 碳纤维 阳极 纳米颗粒 电极 石墨烯 纳米复合材料 电化学 超级电容器 纳米片 碳纳米管 储能 纳米结构
作者
Junwei Hao,Xiaokang Xu,Hairui You,Huihua Min,Xiaomin Liu,Hui Yang
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:418: 129475- 被引量:3
标识
DOI:10.1016/j.cej.2021.129475
摘要

Abstract SeS2, a substitute to S with slightly lower theoretical capacity (1124 mAh g−1) but much improved electric conductivity, requires host with special design to alleviate shuttle effect, accommodate volume variation and ensure fast redox kinetics. Herein, a facile synthesis method via hydrothermal reaction was introduced to fabricate a 3D hierarchical structure composite with CoSe2 nano-particles uniformly distributed in mesoporous carbon nanosheets standing on carbon fiber cloth (marked as CFC-C@CoSe2). As a whole substrate, the mesopores of CFC-C@CoSe2 can physically restrain the intermediates migration and accommodate the volume variation, while the CoSe2 can chemically adsorb the intermediates and catalyze their conversion to Li2S/Li2Se efficiently. The CFC-C@CoSe2 exhibits stronger affinity to polysulfides/polyselenides than the contrast sample CFC-C@Co in the soaking experiment. In addition, the chemical absorption to the polysulfides/polyselenides generated by CoSe2 was further proved via the XPS analysis. Furthermore, the CFC-C@CoSe2-SeS2 cathode presents 3 times higher exchange current density than the CFC-C@Co-SeS2 cathode, suggesting the previous one holds much faster charge-transfer kinetics. Therefore, when tested at 1.0 A g−1, the free-standing CFC-C@CoSe2-SeS2 cathode presents high initial capacity up to 943.4 mAh g−1 with an outstanding coulombic efficiency. In addition, this cathode exhibits excellent rate performance, delivering 735.9, 677.8, 640.3 and 610.5 mAh g−1 when cycled at 1.0, 2.0, 3.0 and 4.0 A g−1, respectively. This easy fabrication method to obtain a composite with rational design may provide a novel approach for the development of next generation rechargeable batteries.

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