Due to the shortage of lithium resources, current lithium-ion batteries are difficult to meet the
growing demand for energy storage in the long run. Rechargeable aqueous aluminum ion …

Subnanometer pores/channels (SNPCs) play crucial roles in regulating electrochemical
redox reactions for rechargeable batteries. The delicately designed and tailored porous …

Low‐cost and nontoxic deep eutectic liquid electrolytes (DELEs), such as [AlCl3] 1.3
[Urea](AU), are promising for rechargeable non‐aqueous aluminum metal batteries (AMBs) …

Combining materials science, artificial intelligence (AI), physical chemistry, and other
disciplines, materials informatics is continuously accelerating the vigorous development of …

High-entropy alloys (HEAs) have attracted considerable attention, owing to their exceptional
characteristics and high configurational entropy. Recent findings demonstrated that …

Metal-sulfur batteries (MSBs) have garnered significant interest as upcoming energy storage
options on account of their higher theoretical energy density. Nevertheless, these entities …

Aluminum–sulfur batteries (ASBs) are deemed to be alternatives to meet the increasing
demands for energy storage due to their high theoretical capacity, high safety, low cost, and …

Metal–sulfur batteries constitute an extraordinary research playground that ranges from
fundamental science to applied technologies. However, besides the widely explored Li-S …

Aluminum–sulfur batteries employing high‐capacity and low‐cost electrode materials, as
well as non‐flammable electrolytes, are promising energy storage devices. However, the …

Metal-ion batteries (MIBs) play pivotal roles in various energy storage applications,
necessitating the continuing advancement of materials and technologies that enhance their …