Solid-state electrolytes (SEs) have attracted overwhelming attention as a promising
alternative to traditional organic liquid electrolytes (OLEs) for high-energy-density sodium …

Abstract Alkali (Li/Na/K) metal anodes (AMAs), because of their remarkably high energy
density and low redox potential, are considered as the most promising anodes for next …

The poor anode/electrolyte compatibility and dendrite growth have discouraged the
development of solid‐state sodium‐metal batteries (SSSMBs). Here, a self‐formed …

Solid electrolytes hold promise in safely enabling high-energy metallic sodium (Na) anodes.
However, the poor Na‖ solid electrolyte interfacial contact can induce Na dendrite growth …

Sodium‐based batteries are promising post lithium‐ion technologies because sodium offers
a specific capacity of 1166 mAh g− 1 and a potential of− 2.71 V vs. the standard hydrogen …

Sodium‐sulfur (Na–S) batteries that utilize earth‐abundant materials of Na and S have been
one of the hottest topics in battery research. The low cost and high energy density make …

Sodium metal batteries have attracted extensive attentions due to their high energy density
and low-cost resources. However, the realization of Na metal anodes is still hampered by …

The development of reliable and affordable all‐solid‐state sodium metal batteries (ASS‐
SMBs) requires suitable solid‐state electrolytes with cost‐efficient processing and stabilized …

We present a novel anode interface modification on the β ″-alumina solid-state electrolyte
that improves the wetting behavior of molten sodium in battery applications. Heat treating a …

The widespread electrification of various sectors is triggering a strong demand for new
energy storage systems with low environmental impact and using abundant raw materials …