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Article Dans Une Revue Communications Chemistry Année : 2020

Multi-scale quantification and modeling of aged nanostructured silicon-based composite anodes

S. Tardif
Stéphanie Pouget
Lukas Helfen

Résumé

Advanced anode material designs utilizing dual phase alloy systems like Si/FeSi2 nano-composites show great potential to decrease the capacity degrading and improve the cycling capability for Lithium (Li)-ion batteries. Here, we present a multi-scale characterization approach to understand the (de-)lithiation and irreversible volumetric changes of the amorphous silicon (a-Si)/crystalline iron-silicide (c-FeSi2) nanoscale phase and its evolution due to cycling, as well as their impact on the proximate pore network. Scattering and 2D/3D imaging techniques are applied to probe the anode structural ageing from nm to μm length scales, after up to 300 charge-discharge cycles, and combined with modeling using the collected image data as an input. We obtain a quantified insight into the inhomogeneous lithiation of the active material induced by the morphology changes due to cycling. The electrochemical performance of Li-ion batteries does not only depend on the active material used, but also on the architecture of its proximity.
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Dates et versions

hal-03095782 , version 1 (04-01-2021)

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Thomas Vorauer, Praveen Kumar, Christopher Berhaut, Fereshteh Chamasemani, Pierre-Henri Jouneau, et al.. Multi-scale quantification and modeling of aged nanostructured silicon-based composite anodes. Communications Chemistry, 2020, 3 (1), ⟨10.1038/s42004-020-00386-x⟩. ⟨hal-03095782⟩
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