Abstract

Electrode/electrolyte interface was studied for all solid-state batteries using inorganic solid electrolyte with the crystalline thio-LISICON and glassy Li–Si–P–S–O systems. The formation of the interfacial phase depends on the electrolyte. The thio-LISICON (Li 3.25Ge 0.25P 0.75S 4) and the Li–Al negative electrode provided the best electrode/electrolyte interface for fast charge–discharge characteristics, while the SEI phase formed at the Li–Al/Li 3PO 4–Li 2S–SiS 2 glass boundary caused high interfacial resistance. The formation of the SEI phase is general behavior at the electrode/electrolyte interface of solid-state batteries, and the fast electrochemical reaction is attained as a result of optimization of the electrode/electrolyte combination.

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