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Promoting Fast Ion Conduction in Li-Argyrodite through Lithium Sublattice Engineering

Po‐Hsiu Chien, Bin Ouyang, Xuyong Feng, Lei Dong, David Mitlin, Jagjit Nanda, Jue Liu

2023Chemistry of Materials19 citationsDOIOpen Access PDF

Abstract

Fundamental understanding of ionic transport plays a pivotal role in designing and optimizing fast ionic conductors. Here, through a systematic neutron scattering and theoretical investigation, we discovered new insights about how anion sublattice affects Li + distribution and transport in Li-argyrodite. We found that the promotion of Li + conductivities is strongly correlated with a previously overlooked Li + interstitial site (16e), which is critical for realizing intercage Li + migration. More isotropic Li + migration pathways with higher Li + occupancies on the interstitial 16e site are found to be the underlying reason for the much higher Li + conductivity in Li 6 PS 5 Cl relative to the Br- and I-based analogues. We further confirm that they are also the universal driving force for the ultrahigh Li + conductivities in both anion-substituted Li-poor (Li 6– a PS 5– a X a, X = Cl and Br) and cation-substituted Li-rich argyrodite (e.g., Li 6+ a Ge a P 1– a S 5 I and Li 6+ a Si a Sb 1– a S 5 I). It is expected this strategy can be generally adopted to improve the ionic conductivity of the broad family of Li-rich argyrodite and beyond.

Topics & Concepts

Ionic conductivityLithium (medication)IonConductivityMaterials scienceIonic bondingInorganic chemistryChemical physicsChemistryPhysical chemistryElectrolyteElectrodeMedicineOrganic chemistryEndocrinologyAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsChemical Synthesis and Characterization
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