Energy production and storage technologies have attracted a great deal of attention for day-
to-day applications. In recent decades, advances in lithium-ion battery (LIB) technology have …

The exploration of next-generation sodium-ion batteries (SIBs) is a worldwide concern to
replace the current commercial lithium-ion batteries, mitigating the increasing exhaustion of …

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 increasing demand for replacing conventional fossil fuels with clean energy or
economical and sustainable energy storage drives better battery research today. Sodium …

Sodium‐ion batteries (SIBs) as the next generation of sustainable energy technologies have
received widespread investigations for large‐scale energy storage systems (EESs) and …

Layered oxides have become the research focus of cathode materials for sodium‐ion
batteries (SIBs) due to the low cost, simple synthesis process, and high specific capacity …

Li‐rich cathodes are extensively investigated as their energy density is superior to Li
stoichiometric cathode materials. In addition to the transition metal redox, this intriguing …

Large-scale electric energy storage is fundamental to the use of renewable energy.
Recently, research and development efforts on room-temperature sodium-ion batteries …

Recently, the attention to sodium-ion batteries has been refocused on large-scale energy
storage applications, due to sodium's low cost and infinite abundance. Sodium is one of the …

Recently, room‐temperature stationary sodium‐ion batteries (SIBs) have received extensive
investigations for large‐scale energy storage systems (EESs) and smart grids due to the …