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Charge-clustering induced fast ion conduction in 2LiX-GaF3: A strategy for electrolyte design

Science Advances (2023) 9(47)
DOI: 10.1126/sciadv.adj9930
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Abstract

2LiX-GaF3 (X = Cl, Br, I) electrolytes offer favorable features for solid-state batteries: mechanical pliability and high conductivities. However, understanding the origin of fast ion transport in 2LiX-GaF3 has been challenging. The ionic conductivity order of 2LiCl-GaF3 (3.20 mS/cm) > 2LiBr-GaF3 (0.84 mS/cm) > 2LiI-GaF3 (0.03 mS/cm) contradicts binary LiCl (10−12 S/cm)

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Patel, S. V., Lacivita, V., Liu, H., Truong, E., Jin, Y., Wang, E., … Hu, Y. Y. (2023). Charge-clustering induced fast ion conduction in 2LiX-GaF3: A strategy for electrolyte design. Science Advances, 9(47). https://doi.org/10.1126/sciadv.adj9930

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