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Unlocking Li superionic conductivity in face-centred cubic oxides via face-sharing configurations

Yu Chen, Zhengyan Lun, Xinye Zhao, Krishna Prasad Koirala, Linze Li, Yingzhi Sun, Christopher A. O’Keefe, Xiaochen Yang, Zijian Cai, Chongmin Wang, Huiwen Ji, Clare P. Grey, Bin Ouyang, Gerbrand Ceder

2024Nature Materials59 citationsDOIOpen Access PDF

Abstract

Abstract Oxides with a face-centred cubic (fcc) anion sublattice are generally not considered as solid-state electrolytes as the structural framework is thought to be unfavourable for lithium (Li) superionic conduction. Here we demonstrate Li superionic conductivity in fcc-type oxides in which face-sharing Li configurations have been created through cation over-stoichiometry in rocksalt-type lattices via excess Li. We find that the face-sharing Li configurations create a novel spinel with unconventional stoichiometry and raise the energy of Li, thereby promoting fast Li-ion conduction. The over-stoichiometric Li–In–Sn–O compound exhibits a total Li superionic conductivity of 3.38 × 10 −4 S cm −1 at room temperature with a low migration barrier of 255 meV. Our work unlocks the potential of designing Li superionic conductors in a prototypical structural framework with vast chemical flexibility, providing fertile ground for discovering new solid-state electrolytes.

Topics & Concepts

Fast ion conductorStoichiometryMaterials scienceConductivityLithium (medication)IonElectrolyteSpinelIonic conductivityChemical physicsThermal conductionCondensed matter physicsPhysical chemistryChemistryPhysicsElectrodeMetallurgyComposite materialMedicineEndocrinologyOrganic chemistryAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsFerroelectric and Piezoelectric Materials
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