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Sodium storage mechanism of a GeP5/C composite as a high capacity anode material for sodium-ion batteries
Journal article   Peer reviewed

Sodium storage mechanism of a GeP5/C composite as a high capacity anode material for sodium-ion batteries

Mao-Hui Zhang, Jing-Ke Meng, Na Xiao, Rui-Wen Shao, Xiao-Jing Wu, Peng Gao, Zulipiya Shadike and Yong-Ning Zhou
Chemical communications (Cambridge, England), Vol.58(74), pp.10345-10348
20/08/2022
PMID: 36039806

Abstract

Chemistry Chemistry, Multidisciplinary Physical Sciences Science & Technology
The sodium storage mechanism of a GeP5/C composite electrode was revealed. Metallic Ge formed during discharge enhances the electronic conductivity of the electrode, while NaxP mitigates the agglomeration and volume change of Ge in the alloying process. The GeP5 phase is regenerated after recharge along with elemental Ge and P, implying a reversible phase transition of GeP5 during cycling.

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