Spatially Resolving Lithiation in Silicon–Graphite Composite Electrodes via in Situ High-Energy X‑ray Diffraction Computed Tomography

Optimizing the chemical and morphological parameters of lithium-ion (Li-ion) electrodes is extremely challenging, due in part to the absence of techniques to construct spatial and temporal descriptions of chemical and morphological heterogeneities. We present the first demonstration of combined high...

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Bibliographic Details
Published in:Nano letters 2019-06, Vol.19 (6), p.3811-3820
Main Authors: Finegan, Donal P, Vamvakeros, Antonis, Cao, Lei, Tan, Chun, Heenan, Thomas M. M, Daemi, Sohrab R, Jacques, Simon D. M, Beale, Andrew M, Di Michiel, Marco, Smith, Kandler, Brett, Dan J. L, Shearing, Paul R, Ban, Chunmei
Format: Article
Language:English
Subjects:
composite electrodes
Electrodes
Graphite - chemistry
high-speed XRD
lithitation heterogeneities
Lithium - chemistry
MATERIALS SCIENCE
NANOSCIENCE AND NANOTECHNOLOGY
Si electrodes
Silicon - chemistry
Tomography, X-Ray Computed
X-Ray Diffraction
X-ray diffraction computed tomography
XRD-CT
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Summary:Optimizing the chemical and morphological parameters of lithium-ion (Li-ion) electrodes is extremely challenging, due in part to the absence of techniques to construct spatial and temporal descriptions of chemical and morphological heterogeneities. We present the first demonstration of combined high-speed X-ray diffraction (XRD) and XRD computed tomography (XRD-CT) to probe, in 3D, crystallographic heterogeneities within Li-ion electrodes with a spatial resolution of 1 μm. The local charge-transfer mechanism within and between individual particles was investigated in a silicon­(Si)−graphite composite electrode. High-speed XRD revealed charge balancing kinetics between the graphite and Si during the minutes following the transition from operation to open circuit. Subparticle lithiation heterogeneities in both Si and graphite were observed using XRD-CT, where the core and shell structures were segmented, and their respective diffraction patterns were characterized.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.9b00955