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Interwoven V2O5 nanowire/graphene nanoscroll hybrid assembled as efficient polysulfide-trapping-conversion interlayer for long-life lithium-sulfur batteries

journal contribution
posted on 2024-11-16, 04:01 authored by Yi Guo, Yin Zhang, Yun Zhang, Mingwu Xiang, Hao Wu, Hua LiuHua Liu, Shi DouShi Dou
An alternative strategy for blocking the shuttling of soluble polysulfides in lithium-sulfur (Li-S) batteries involved introducing an interlayer between the cathode and separator. However, tailoring the interlayer components, structure, and chemistry to realize efficient conversion of polysulfides into insoluble lithium sulfides remains challenging. Herein, a flexible self-standing hybrid interlayer is engineered by intertwining one-dimensional (1D) V2O5 nanowires (NWs) with graphene nanoscrolls (GNS) into a robust interconnected 3D network to be used as both an upper current collector and physical/chemical polysulfide-trapper. The highly conductive and open GNS framework provides bicontinuous transfer channels for rapid electron and ion transport across the cathode/separator interface. Meanwhile, the V2O5 NWs act as ideal redox mediators to dynamically block polysulfide dissolution and facilitate their conversion into sulfides via formation of active intermediate polythionate complexes. Therefore, these cells with 70 wt% sulfur content in the whole cathode have significantly improved performance with a long cycling life (1000 cycles), low capacity decay (0.041% per cycle), and considerable areal capacity (>4 mA h cm-2), even at a high sulfur loading of 5.5 mg cm-2. This novel interlayer design strategy has great potential for promoting the practical use of Li-S batteries.

Funding

Multifunctional 2D materials for sustainable energy applications

Australian Research Council

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Two-dimensional plasmonic heterogeneous nanostructures for photocatalysis

Australian Research Council

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History

Citation

Guo, Y., Zhang, Y., Zhang, Y., Xiang, M., Wu, H., Liu, H. & Dou, S. (2018). Interwoven V2O5 nanowire/graphene nanoscroll hybrid assembled as efficient polysulfide-trapping-conversion interlayer for long-life lithium-sulfur batteries. Journal of Materials Chemistry A, 6 (40), 19358-19370.

Journal title

Journal of Materials Chemistry A

Volume

6

Issue

40

Pagination

19358-19370

Language

English

RIS ID

131173

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