Low‐cost sodium‐ion batteries (SIBs) have been extensively considered as a supplement or
even a replacement for successful lithium‐ion batteries. However, the practical application of …

With the widespread application of electrical energy storage technology, it is particularly
essential to develop a new generation of rechargeable batteries with low cost, high capacity …

The application of sodium-based batteries in grid-scale energy storage requires electrode
materials that facilitate fast and stable charge storage at various temperatures. However, this …

Layered transition metal oxide P2‐Na2/3Ni1/3Mn2/3O2 usually suffers from large‐volume
phase transitions and different Na‐vacancy ordering during sodium (de) intercalation …

As one of the fascinating high capacity cathodes, O3‐type layered oxides usually suffer from
their intrinsic air sensitivity and sluggish kinetics originating from the spontaneous lattice Na …

Abstract P2‐type Na0. 67Ni0. 33Mn0. 67O2 is a dominant cathode material for sodium‐ion
batteries due to its high theoretical capacity and energy density. However, charging P2‐type …

The rapid capacity loss suffered by P2‐type Mn‐based layered oxide cathode materials,
caused by deleterious high‐voltage phase transformations and the dissolution of active …

O3-type layered materials are considered as promising cathode materials for advanced
sodium-ion batteries owing to their low cost and high energy density. However, resultant …

Layered oxide cathodes usually exhibit high compositional diversity, thus providing
controllable electrochemical performance for Na‐ion batteries. These abundant components …

High‐entropy layered oxide materials containing various metals that exhibit smooth voltage
curves and excellent electrochemical performances have attracted attention in the …