Oxygen-Substitution Effects on the Properties of Argyrodite-Type Sulfide Solid Electrolytes (Li5.5PS4.5−xBr1.5Ox, 0 ≦ x ≦ 0.5)

TSUKAZAKI Rei, MATSUI Naoki, HORI Satoshi, SUZUKI Kota, KANNO Ryoji

doi:10.5796/electrochemistry.25-71033

Li-deficient argyrodite-type Li conductors are promising solid electrolytes for all-solid-state batteries because of their high ionic conductivity, favorable mechanical properties, and low synthesis cost. However, challenges such as incompatibility at the electrode/electrolyte interface must be addressed. In this study, Li-deficient argyrodite-type Li_5.5PS_4.5−_xBr_1.5O_x (0 ≦ x ≦ 0.5) was synthesized by oxygen substitution and its crystal structure and electrochemical properties were investigated. Oxygen is soluble at specific crystallographic sites (16e), with substitution increasing systematically as the value of x in Li_5.5PS_4.5−_xBr_1.5O_x increases. Furthermore, it was found that Li_5.5PS_4.5−_xBr_1.5O_x (x = 0.1) showed relatively high ionic conductivity and improved compatibility with the positive electrode. The cells incorporating Li_5.5PS_4.5−_xBr_1.5O_x (x = 0.1) in the cathode composite demonstrate excellent cycle stability, retaining 71.5 % of their capacity after 100 cycles at a 0.1C-rate. These findings clarify the effects and mechanisms of oxygen substitution in argyrodite-type Li_5.5PS_4.5Br_1.5 and provide a strategy for advancing the practical application of all-solid-state batteries.

Oxygen-Substitution Effects on the Properties of Argyrodite-Type Sulfide Solid Electrolytes (Li<sub>5.5</sub>PS<sub>4.5−</sub><i><sub>x</sub></i>Br<sub>1.5</sub>O<i><sub>x</sub></i>, 0 ≦ <i>x</i> ≦ 0.5)

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