Because of the high abundance, cost-effectiveness and low redox potential of Na,
rechargeable Na metal batteries (NMBs) are considered an ideal alternative and …

Lithium metal anode is regarded as a key part of the next generation battery owing to its high
specific energy density and low electrode potential. However, the easily produced lithium …

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 …

Abstract Sodium/Potassium (Na/K) metal anodes have been considered as the promising
anodes for next-generation Na/K secondary batteries owing to their ultrahigh specific …

The sodium (potassium)‐metal anodes combine low‐cost, high theoretical capacity, and
high energy density, demonstrating promising application in sodium (potassium)‐metal …

Abstract 3D substrate with abundant sodiophilic active sites holds promise for implementing
dendrite‐free sodium metal anodes and high‐performance sodium batteries. However, the …

Rechargeable metal-sulfur batteries are considered promising candidates for energy
storage due to their high energy density along with high natural abundance and low cost of …

Three‐dimensional host structures with superior sodiophilicity and low nucleation barriers
can help combat the complex failure modes of Na metal anodes originating from accelerated …

Abstract Metal–sulfur (M–S) batteries are promising energy‐storage devices due to their
advantages such as large energy density and the low cost of the raw materials. However, M …

Sodium (Na) dendrites, as the ringleader for triggering safety concerns, have restricted the
practical application of sodium metal batteries (SMBs). The fundamental reason is due to the …