4.6 Article

Lithium insertion in hard carbon as observed by 7Li NMR and XRD. The local and mesoscopic order and their relevance for lithium storage and diffusion

期刊

JOURNAL OF MATERIALS CHEMISTRY A
卷 10, 期 18, 页码 10069-10082

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ROYAL SOC CHEMISTRY
DOI: 10.1039/d2ta00078d

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  1. Swedish Energy Agency
  2. Swedish Research Council (VR)
  3. Swedish Foundation for Strategic Research (SSF) within the Swedish national graduate school in neutron scattering (SwedNess)

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Through the use of Li-7-NMR and 2D-XRD techniques, we investigated the properties of hard carbon fibers in different states of charge. We found that at low Li content, Li is distributed in disordered spatial domains, while at high Li content, ordered domains become populated. We also observed the presence of very small metallic lithium particles at high Li content. The joint analysis of XRD and Li-7-NMR revealed a mesoscopic structure composed of ordered domains arranged in a cylindrical manner parallel to the fiber axis.
We investigate hard carbon fibers in different states of charge by a combination of Li-7-NMR and 2D-XRD. In particular, we record the quadrupole-split Li-7-NMR spectra and Li-7 longitudinal relaxation over a wide temperature range, and determine lithium self-diffusion both parallel and perpendicular to the fiber axis. Recording the temperature dependence permits us to interpret the presence of motional averaging of spin couplings for mobile Li. The joint analysis shows that at low Li content, Li occupies sites that lack ordered coordination and delocalized electrons and are collected in disordered spatial domains. Upon increasing the Li content, ordered sites collected in ordered domains become populated. Both disordered and ordered domains have a high inherent heterogeneity with a typical spatial extension of a few nanometers. The disordered domains exhibit a continuous topology that permits unhindered diffusion within it. At high Li content we also observe the presence of very small (similar to nm) particles of metallic lithium. The joint analysis of XRD in combination with diffusion anisotropy, and anisotropy from the Li-7-NMR spectrum (with samples oriented differently with regard to the applied magnetic field), shows that the mesoscopic structure is made by ordered domains arranged in a cylindrically rolled-up manner with the mesoscopic axis parallel to the fiber axis.

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