Moisture Robustness of Li6PS5Cl Argyrodite Sulfide Solid Electrolyte Improved by Nano-Level Treatment with Lewis Acid Additives

Sulfide solid-state electrolytes (SSSEs) are considered an auspicious alternative for all-solid-state batteries, because of their ductility and high ionic conductivity. One obstacle that thwarts SSSEs in large-scale applications is their lack of stability upon exposure to humid air. We used Lewis ac...

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Veröffentlicht in:	ACS energy letters 2024-04, Vol.9 (4), p.1844-1852
Hauptverfasser:	Nikodimos, Yosef, Jiang, Shi-Kai, Huang, Shing-Jong, Taklu, Bereket Woldegbreal, Huang, Wei-Hsiang, Desta, Gidey Bahre, Tekaligne, Teshager Mekonnen, Muche, Zabish Bilew, Lakshmanan, Keseven, Chang, Chia-Yu, Hagos, Teklay Mezgebe, Shitaw, Kassie Nigus, Yang, Sheng-Chiang, Wu, She-Huang, Su, Wei-Nien, Hwang, Bing Joe
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creator	Nikodimos, Yosef Jiang, Shi-Kai Huang, Shing-Jong Taklu, Bereket Woldegbreal Huang, Wei-Hsiang Desta, Gidey Bahre Tekaligne, Teshager Mekonnen Muche, Zabish Bilew Lakshmanan, Keseven Chang, Chia-Yu Hagos, Teklay Mezgebe Shitaw, Kassie Nigus Yang, Sheng-Chiang Wu, She-Huang Su, Wei-Nien Hwang, Bing Joe
description	Sulfide solid-state electrolytes (SSSEs) are considered an auspicious alternative for all-solid-state batteries, because of their ductility and high ionic conductivity. One obstacle that thwarts SSSEs in large-scale applications is their lack of stability upon exposure to humid air. We used Lewis acid additives to treat the argyrodite Li6PS5Cl SSSE particles at the nanoscale level by dispersing them in solution mixtures, a method that had minimal impact on ionic conductivity. A series of investigations were conducted, involving the utilization of X-ray diffraction, in situ Raman spectroscopy, solid-state nuclear magnetic resonance, and X-ray absorption near-edge structure for characterizations. The SSSE demonstrated notable atmospheric stability by establishing a Lewis acid–base interaction with the additives. This interaction effectively shields the SSSE from moisture in humid air, ensuring that the bulk region remains structurally intact and undeteriorated. Therefore, treating SSSEs using Lewis acid additives is an auspicious approach to improving their moisture stability.
doi_str_mv	10.1021/acsenergylett.4c00500
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One obstacle that thwarts SSSEs in large-scale applications is their lack of stability upon exposure to humid air. We used Lewis acid additives to treat the argyrodite Li6PS5Cl SSSE particles at the nanoscale level by dispersing them in solution mixtures, a method that had minimal impact on ionic conductivity. A series of investigations were conducted, involving the utilization of X-ray diffraction, in situ Raman spectroscopy, solid-state nuclear magnetic resonance, and X-ray absorption near-edge structure for characterizations. The SSSE demonstrated notable atmospheric stability by establishing a Lewis acid–base interaction with the additives. This interaction effectively shields the SSSE from moisture in humid air, ensuring that the bulk region remains structurally intact and undeteriorated. 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title	Moisture Robustness of Li6PS5Cl Argyrodite Sulfide Solid Electrolyte Improved by Nano-Level Treatment with Lewis Acid Additives
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