Issue 25, 2024

Cyanosol-enabled ultrafine alloy nanocrystals on graphene as a hybridization matrix for long-life and high-rate silicon anodes

Abstract

In silicon-based hybrid anodes, the uniform hybridization of silicon with conducting/buffering matrices is very critical in achieving desirable lithium storage performance. Herein, a cyanosol-derived electrostatic assembly and pyrolysis route has been developed to construct homogeneous silicon/metal/carbon (Si/M/C) ternary materials. Specifically, Si nanoparticles surrounded by ultrafine FeCo alloy are uniformly anchored on graphene (G), yielding a Si/FeCo/G nanohybrid. The incorporation of M/C dual matrices, with ultrafine alloy nanocrystals evenly distributed on graphene, into silicon could be responsible for the improved structural stability and charge-transport capability of the ternary anode. As a result, the Si/FeCo/G nanohybrid manifests good cycling stability (1426 mA h g−1 after 100 cycles at 0.5 A g−1) and high rate performance (1266 and 1118 mA h g−1 at 5 and 10 A g−1, respectively).

Graphical abstract: Cyanosol-enabled ultrafine alloy nanocrystals on graphene as a hybridization matrix for long-life and high-rate silicon anodes

Supplementary files

Article information

Article type
Paper
Submitted
11 Apr 2024
Accepted
22 May 2024
First published
22 May 2024

New J. Chem., 2024,48, 11267-11272

Cyanosol-enabled ultrafine alloy nanocrystals on graphene as a hybridization matrix for long-life and high-rate silicon anodes

J. Zhu, X. Li, J. Chen, C. Wang, Z. Li, X. Cao, Y. Zhou, Y. Tang and P. Wu, New J. Chem., 2024, 48, 11267 DOI: 10.1039/D4NJ01660B

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