Litcius/Paper detail

Cycling Rate‐Induced Spatially‐Resolved Heterogeneities in Commercial Cylindrical Li‐Ion Batteries

Antonis Vamvakeros, D. Matras, Thomas E. Ashton, Alan A. Coelho, Hongyang Dong, Dustin Bauer, Yaroslav Odarchenko, Stephen W. T. Price, Keith T. Butler, Olof Gutowski, Ann‐Christin Dippel, Martin von Zimmerman, Jawwad A. Darr, Simon D. M. Jacques, Andrew M. Beale

2021Small Methods36 citationsDOIOpen Access PDF

Abstract

Abstract Synchrotron high‐energy X‐ray diffraction computed tomography has been employed to investigate, for the first time, commercial cylindrical Li‐ion batteries electrochemically cycled over the two cycling rates of C/2 and C/20. This technique yields maps of the crystalline components and chemical species as a cross‐section of the cell with high spatiotemporal resolution (550 × 550 images with 20 × 20 × 3 µ m 3 voxel size in ca. 1 h). The recently developed Direct Least‐Squares Reconstruction algorithm is used to overcome the well‐known parallax problem and led to accurate lattice parameter maps for the device cathode. Chemical heterogeneities are revealed at both electrodes and are attributed to uneven Li and current distributions in the cells. It is shown that this technique has the potential to become an invaluable diagnostic tool for real‐world commercial batteries and for their characterization under operating conditions, leading to unique insights into “real” battery degradation mechanisms as they occur.

Topics & Concepts

SynchrotronIonCathodeMaterials scienceElectrodeBattery (electricity)DiffractionLattice constantLattice (music)AnodeCyclingOpticsChemistryPhysicsThermodynamicsPower (physics)ArchaeologyPhysical chemistryOrganic chemistryHistoryAcousticsAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchExtraction and Separation Processes