Li‐rich cathode materials have attracted increasing attention because of their high reversible
discharge capacity (> 250 mA hg− 1), which originates from transition metal (TM) ion redox …

Rechargeable batteries currently power much of our world, but with the increased demand
for electric vehicles (EVs) capable of traveling hundreds of miles on a single charge, new …

Although Li-ion batteries have emerged as the battery of choice for electric vehicles and
large-scale smart grids, significant research efforts are devoted to identifying materials that …

Rechargeable aqueous Zn metal batteries are promising candidates for renewable energy
storage. However, Zn metal is chemically active and suffers from chemical corrosion in …

The vast of majority of battery electrode materials of contemporary interest are of a
crystalline nature. Crystals are, by definition, anisotropic from an atomic-structure …

A critical challenge in the commercialization of layer‐structured Ni‐rich materials is the fast
capacity drop and voltage fading due to the interfacial instability and bulk structural …

Li‐rich layered oxides (LLOs) have been considered as the most promising cathode
materials for achieving high energy density Li‐ion batteries. However, they suffer from …

Lithium‐rich layered oxides with the capability to realize extraordinary capacity through
anodic redox as well as classical cationic redox have spurred extensive attention. However …

High-capacity and low-cost Li-rich layered Mn-based oxides (LLMOs) hold the great promise
for next-generation lithium ion battery cathode but LLMOs still encounter grand challenges …

Li‐rich manganese base oxides (LRNCM) are regarded as one of the most promising
cathode materials among next‐generation high‐energy density Li‐ion batteries due to the …