Sodium metal with a~ 1166 mA hg− 1 high theoretical specific capacity and a− 2.71 V low
redox potential shows tremendous application prospects in the sodium metal batteries …

Sodium metal batteries (SMBs) are attracting extensive attention for large‐scale energy
storage due to the abundant reserves and low cost of sodium. However, the inevitable side …

Sodium metal batteries hold great promise for energy-dense and low-cost energy storage
technology but are severely impeded by catastrophic dendrite issue. State-of-the-art …

Sodium‐metal batteries (SMBs) are considered as a compliment to lithium‐metal batteries
for next‐generation high‐energy batteries because of their low cost and the abundance of …

Metallic Na (K) are considered a promising anode materials for Na‐metal and K‐metal
batteries because of their high theoretical capacity, low electrode potential, and abundant …

Constructing robust nucleation sites with an ultrafine size in a confined environment is
essential toward simultaneously achieving superior utilization, high capacity, and long-term …

The solid electrolyte interface (SEI) formed on the anode is one of the key factors that
determine the life span of sodium metal batteries (SMBs). However, the continuous evolution …

Abstract “Anode‐less” sodium metal batteries (SMBs) with high energy may become the next‐
generation batteries due to the abundant resources. However, their cycling performance is …

Solvent molecule tuning is used to alter the redox potentials of solvents or ion‐solvent
binding energy for high‐voltage or low‐temperature electrolytes. Herein, an electrolyte …

Severe issues including volume change and dendrite growth on sodium metal anodes
hinder the pursuit of applicable high‐energy‐density sodium metal batteries. Herein, an in …