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Synthesis of hollow GeO2 nanostructures, transformation into GeOC, and lithium storage properties

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posted on 2024-11-16, 09:52 authored by Li Li, Kuok Seng, Chuanqi Feng, Hua LiuHua Liu, Zaiping GuoZaiping Guo
In this work, we synthesize mesoporous and hollow germanium@carbon nanostructures through simultaneous carbon coating and reduction of a hollow ellipsoidal GeO2 precursor. The formation mechanism of GeO 2 ellipsoids and the ratio of Ge4+ to Sn4+ as the starting materials are also investigated. Compared to the solid ellipsoidal Ge@carbon (Ge@C-3), the hollow ellipsoidal Ge@C-1 sample exhibits better cycling stability (100% capacity retention after 200 cycles at the 0.2 C rate) and higher rate capability (805 mA h g-1 at 20 C) compared to Ge@C-3 due to its unique hollow structure; therefore, this hollow ellipsoidal Ge@carbon can be considered as a potential anode material for lithium ion batteries. 2013 The Royal Society of Chemistry.

Funding

New directions to miniaturized power sources: Integrated all-solid-state rechargeable batteries

Australian Research Council

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Citation

Li, L., Seng, K. H., Feng, C., Liu, H. K. & Guo, Z. (2013). Synthesis of hollow GeO2 nanostructures, transformation into Ge@C, and lithium storage properties. Journal of Materials Chemistry A, 1 (26), 7666-7672.

Journal title

Journal of Materials Chemistry A

Volume

1

Issue

26

Pagination

7666-7672

Language

English

RIS ID

80539

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