In recent decades, extensive nanomaterials and related techniques have been proposed to
achieve high capacities surpassing conventional battery electrodes. Nevertheless, most of …

Microsized alloy anodes (Si, P, Sb, Sn, Bi, etc.) with high capacity, proper working potential,
high tap density, and low cost are promising for breaking the energy limits of current …

Red phosphorus (P) as an anode material of potassium‐ion batteries possesses ultra‐high
theoretical specific capacity (1154 mAh g− 1). However, owing to residual white P during the …

Layered iron/manganese‐based oxides are a class of promising cathode materials for
sustainable batteries due to their high energy densities and earth abundance. However, the …

Phosphorus anodes are a promising for fast‐charging high‐energy lithium‐ion batteries
because of their high specific capacity (2596 mAh g–1) and suitable lithiation potential (0.7 …

Solid‐electrolyte interphase (SEI) seriously affects battery's cycling life, especially for high‐
capacity anode due to excessive electrolyte decomposition from particle fracture. Herein, we …

The development of sodium-ion full cells is seriously suppressed by the incompatibility
between electrodes and electrolytes. Most representatively, high-voltage ester-based …

Advancing fast‐charging technology is an important strategy for the development of alkali
metal ion batteries (AMIBs). The exploitation of a new generation of anode material system …

A phosphorus anode is a promising option for energy‐storage applications because of its
high theoretical specific capacity and safe lithiation potential. However, the multiphase …