The emerging criticality of key constituents of Li-ion batteries has focused attention on more
earth-abundant battery chemistries. Realizing the promise of alternative chemistries such as …

Magnesium-metal anode has received tremendous attention because of its rich resources,
satisfied volumetric capacity and intrinsic safety. Three-dimensional scaffolds can …

Downsizing the dimensions of materials holds great importance for promoting the alkali-ion
storage properties, which is considered to be one of the most efficient methods for improving …

Magnesium ion batteries are a promising alternative of the lithium counterpart; however, the
poorly ion-conductive passivation layer on Mg metal makes plating/stripping difficult. In …

A novel composite with antimony (Sb) nanoparticles anchored in three-dimensional carbon
network (denoted as SbNPs@ 3D-C) is successfully synthesized via a NaCl template …

Despite the substantial efforts aimed at suppressing metallic dendrite growth in Li-metal
batteries, Mg-metal dendrite growth has thus far received relatively little attention, and the …

Owing to their safety and low cost, magnesium ion batteries (MIBs) have attracted much
attention in recent years. However, the sluggish diffusion dynamics of magnesium ions …

The utilization of Al current collector for the sodium deposition is considered ideal for
achieving a low‐cost, high‐energy‐density sodium metal battery. However, the poor affinity …

Rechargeable magnesium batteries (RMBs) show great potential in large-scale energy
storage systems, due to Mg2+ with high polarity leading to strong interactions within the …

Magnesium metal batteries (MMBs) have obtained the reputation owing to the high
volumetric capacity, low reduction potential, and dendrite‐free deposition behavior of the Mg …