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Yttrium–Sodium Halides as Promising Solid-State Electrolytes with High Ionic Conductivity and Stability for Na-Ion Batteries

Yu Qie, Shuo Wang, Sijie Fu, Huanhuan Xie, Qiang Sun, Puru Jena

2020The Journal of Physical Chemistry Letters94 citationsDOI

Abstract

All-solid-state sodium-ion batteries (ASIBs) are promising candidates for large-scale energy storage applications. To build such a battery system, efficient solid-state electrolytes (SSEs) with high sodium ionic conductivity at room temperature and good electrochemical stability as well as interface compatibility are required. In this work, using density functional theory combined with molecular dynamics simulation and a phase diagram, we have studied the potential of yttrium halide-based materials (Na3YX6, where X = Cl or Br) with inherent cation vacancies as diffusion carriers for solid electrolytes in ASIBs. A great balance between electrochemical stability and ionic conductivity found in these two systems overcomes the shortcomings of sulfide- and oxide-based SSEs. In particular, these two materials show Na+ conductivities of 0.77 and 0.44 mS cm–1 at 300 K and wide electrochemical windows of 0.51–3.75 and 0.57–3.36 V, and good interfacial stability with Na metal anode and high-potential polyanion (fluoro)phosphate cathode materials, respectively. These features make halide-based materials promising efficient solid-state electrolytes for Na-ion batteries.

Topics & Concepts

Ionic conductivityYttriumHalideElectrolyteFast ion conductorInorganic chemistrySodiumIonic bondingIonConductivitySolid-stateMaterials scienceChemistryElectrodeMetallurgyPhysical chemistryOrganic chemistryOxideAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesThermal Expansion and Ionic Conductivity
Yttrium–Sodium Halides as Promising Solid-State Electrolytes with High Ionic Conductivity and Stability for Na-Ion Batteries | Litcius