Abstract
Solid-state K-ion conducting electrolytes are key elements to address the current problems in K secondary batteries. Here, we report a sulfide-based K-ion conductor K(3) SbS(4) with a low-activation energy of 0.27 eV. W-doped K(3-x) Sb(1-x) W(x) S(4) (x=0.04, 0.06, 0.08, 0.10 and 0.12) compounds were also explored for increasing vacancy concentrations and improving ionic conductivity. Among them, K(2.92) Sb(0.92) W(0.08) S(4) exhibits the highest conductivity of 1.4×10(-4) S cm(-1) at 40 °C, which is among the best reported potassium-ion conductors at ambient temperature. In addition, K(2.92) Sb(0.92) W(0.08) S(4) is electrochemically stable with long-chained potassium polysulfide of K(2) S(x) . A room-temperature solid potassium-sulfur (K-S) battery system has therefore been successfully demonstrated, which is the first K-S battery prototype using non-commercial inorganic-based electrolyte to block the polysulfide shuttle.