Conspectus Lithium-ion batteries (LIBs) are ubiquitous in all modern portable electronic
devices such as mobile phones and laptops as well as for powering hybrid electric vehicles …

The exponential growth of the lithium‐ion (LIB) market is causing a significant disparity
between the supply chain and demand for its resources. In this regard, sodium‐ion and …

Sodium layered oxides always suffer from sluggish kinetics and deleterious phase
transformations at deep-desodiation state (ie.,> 4.0 V) in O3 structure, incurring inferior rate …

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 …

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 …

Two-phase transformation reaction is ubiquitous in solid-state electrochemistry; however, it
usually involves inferior structure rearrangement upon extraction and insertion of large-sized …

Attempts to utilize lithium-ion batteries (LIBs) in large-scale electrochemical energy storage
systems have achieved initial success, and solid-state LIBs using metallic lithium as the …

Abstract Na0. 44MnO2 is a promising cathode material for sodium‐ion batteries owing to its
excellent cycling stability and low cost. However, insufficient sodium storage sites still hinder …

Activating anionic redox chemistry in layered oxide cathodes is a paradigmatic approach to
devise high-energy sodium-ion batteries. Unfortunately, excessive oxygen redox usually …

Manganese‐rich layered oxide cathodes of sodium‐ion batteries (SIBs) are extremely
promising for large‐scale energy storage owing to their high capacities and cost …