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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−1at 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.
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Zhu, Yuntong; Hood, Zachary D; Paik, Haemin; Groszewicz, Pedro B; Emge, Steffen P; Sayed, Farheen N; Sun, Chengjun; Balaish, Moran; Ehre, David; Miara, Lincoln J; et al (, Matter)
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Jing, Yan; Zhao, Evan Wenbo; Goulet, Marc-Antoni; Bahari, Meisam; Fell, Eric M.; Jin, Shijian; Davoodi, Ali; Jónsson, Erlendur; Wu, Min; Grey, Clare P.; et al (, Nature Chemistry)
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Griffith, Kent J.; Hope, Michael A.; Reeves, Philip J.; Anayee, Mark; Gogotsi, Yury; Grey, Clare P. (, Journal of the American Chemical Society)null (Ed.)
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Torayev, Amangeldi; Sperrin, Luke; Gomez, Maria A.; Kattirtzi, John A.; Merlet, Céline; Grey, Clare P. (, The Journal of Physical Chemistry C)
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Lebens-Higgins, Zachary W.; Halat, David M.; Faenza, Nicholas V.; Wahila, Matthew J.; Mascheck, Manfred; Wiell, Tomas; Eriksson, Susanna K.; Palmgren, Paul; Rodriguez, Jose; Badway, Fadwa; et al (, Scientific Reports)
