Organic materials have attracted much attention for their utility as lithium-battery electrodes
because their tunable structures can be sustainably prepared from abundant precursors in …

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 …

Pushing the limit of cutoff potentials allows nickel‐rich layered oxides to provide greater
energy density and specific capacity whereas reducing thermodynamic and kinetic stability …

Li‐rich Mn‐based cathode materials (LRMs) are potential cathode materials for high energy
density lithium‐ion batteries. However, low initial Coulombic efficiency (ICE) severely …

Li‐rich layered oxides based on the anionic redox chemistry provide the highest practical
capacity among all transition metal (TM) oxide cathodes but still struggle with poor cycling …

The application of Li‐rich layered oxides is hindered by their dramatic capacity and voltage
decay on cycling. This work comprehensively studies the mechanistic behaviour of cobalt …

Utilizing reversible lattice oxygen redox (OR) in battery electrodes is an essential strategy to
overcome the capacity limitation set by conventional transition metal redox. However, lattice …

High‐energy Li‐rich layered cathode materials (≈ 900 Wh kg− 1) suffer from severe
capacity and voltage decay during cycling, which is associated with layered‐to‐spinel phase …

Lithium‐rich manganese‐based cathode materials (LLMO) are considered as the promising
candidates for realizing high energy density lithium‐ion batteries. However, the severe …

The fact that ordered materials are rarely perfectly crystalline is widely acknowledged
among materials scientists, but its impact is often overlooked or underestimated when …