The design of solid-state electrolyte (SSE) entails controlling not only its bulk structure but
also the internal (eg, grain boundary and pore) and heterophase (eg, anode-SSE reaction …

Transition-metal chalcogenide nanostructures provide a unique material platform to
engineer next-generation energy storage devices such as lithium-ion, sodium-ion, and …

This study introduces a Na+ fluorinated halide nanocomposite solid electrolyte (HNSE),
ZrO2-2Na2ZrCl5F, synthesized through a mechanochemical reaction using Na2O. This …

The design of new solid electrolytes (SEs) hinges on identifying and tuning relevant
descriptors. Phonons describe the atomic dynamics in crystalline materials and provide a …

Develo** K‐ion conducting solid‐state electrolytes (SSEs) plays a critical role in the safe
implementation of potassium batteries. In this work, a chalcogenide‐based potassium ion …

The search for novel materials has recently brought research attention to alkali metal-based
chalcogenides (ABZ) as a new class of semiconducting inorganic materials. Various …

Aliovalent substitution is a common strategy to improve the ionic conductivity of solid
electrolytes for solid-state batteries. The substitution of SbS43–by WS42–in Na2. 9Sb0 …

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 K3SbS4 with a …

Solid-state sodium batteries are among the most promising candidates for replacing
conventional lithium-ion batteries for next-generation electrochemical energy storage …

Solid‐state sodium batteries (SSSBs) are poised to replace lithium‐ion batteries as viable
alternatives for energy storage systems owing to their high safety and reliability, abundance …