4.6 Article

Localized-domains staging structure and evolution in lithiated graphite

Journal

CARBON ENERGY
Volume 5, Issue 1, Pages -

Publisher

WILEY
DOI: 10.1002/cey2.224

Keywords

cryogenic-transmission electron microscopy (cryo-TEM); graphite intercalation compounds; lithiated graphite; localized-domains structural model; staging structures

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In this study, the staging structure and evolution of lithium-intercalated graphite were revealed at the nanoscale using cryogenic-transmission electron microscopy and other methods. The intercalated lithium ions were found to distribute unevenly, leading to local stress and dislocations in the graphite structure. Each staging compound exhibited macroscopic order but microscopic inhomogeneity, revealing a localized-domains structural model.
Intercalation provides to the host materials a means for controlled variation of many physical/chemical properties and dominates the reactions in metal-ion batteries. Of particular interest is the graphite intercalation compounds with intriguing staging structures, which however are still unclear, especially in their nanostructure and dynamic transition mechanism. Herein, the nature of the staging structure and evolution of the lithium (Li)-intercalated graphite was revealed by cryogenic-transmission electron microscopy and other methods at the nanoscale. The intercalated Li-ions distribute unevenly, generating local stress and dislocations in the graphitic structure. Each staging compound is found macroscopically ordered but microscopically inhomogeneous, exhibiting a localized-domains structural model. Our findings uncover the correlation between the long-range ordered structure and short-range domains, refresh the insights on the staging structure and transition of Li-intercalated/deintercalated graphite, and provide effective ways to enhance the reaction kinetic in rechargeable batteries by defect engineering.

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