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Graphene-Encapsulated CuP2: A Promising Anode Material with High Reversible Capacity and Superior Rate-Performance for Sodium-Ion Batteries

journal contribution
posted on 2024-11-16, 05:54 authored by Yuanjun Zhang, Guanyao Wang, Liang Wang, Liang Tang, Ming Zhu, Chao WuChao Wu, Shi DouShi Dou, Minghong Wu
Metal polyphosphides are regarded as the ideal anode candidates for sodium storage because of their high theoretical capacity, reasonable potential, and abundant resource alternative. However, most of them suffer from irreversibility problems, as reflected by their low reversible capacity, inferior Coulombic efficiency (CE), low rate capability, and poor cycling stability. In this work, we systematically compare the electrochemical behavior of a variety of polyphosphides bulks, discovering that the CuP 2 bulks have higher initial reversible capacity (416 mAh g -1 at 0.1 A g -1 ) and CE (74%) compared to the FeP 2 , CoP 3 , and NiP 2 bulks, which is related to the unique crystal structure of CuP 2 . The CuP 2 electrode is optimized by the rational design of encapsulating CuP 2 nanoparticles into three-dimensional graphene networks (CuP 2 @GNs), leading to excellent electrochemical performance. In the carbonate electrolyte, the CuP 2 @GNs electrode can deliver the reversible capacities of up to 804, 736, 685, 621, and 508 mAh g -1 at 0.1, 0.5, 1, 2, and 5 A g -1 , respectively, along with a first CE of 66%. The reversible capacity can be up to 737 mAh g -1 at 0.1 A g -1 with a first CE of 83% in the ether electrolyte. These excellent performance demonstrates that CuP 2 @GNs could be a promising anode material for sodium-ion 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

Zhang, Y., Wang, G., Wang, L., Tang, L., Zhu, M., Wu, C., Dou, S. & Wu, M. (2019). Graphene-Encapsulated CuP2: A Promising Anode Material with High Reversible Capacity and Superior Rate-Performance for Sodium-Ion Batteries. Nano Letters: a journal dedicated to nanoscience and nanotechnology, 19 (4), 2575-2582.

Journal title

Nano Letters

Volume

19

Issue

4

Pagination

2575-2582

Language

English

RIS ID

134533

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