Rechargeable lithium batteries (RLBs), including lithium-ion and lithium-metal systems,
have recently received considerable attention for electrochemical energy storage (EES) …

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 …

Lithium-manganese-oxides have been exploited as promising cathode materials for many
years due to their environmental friendliness, resource abundance and low biotoxicity …

The oxygen redox reaction in lithium-rich layered oxide battery cathode materials generates
extra capacity at high cell voltages (ie,> 4.5 V). However, the irreversible oxygen release …

With the rapid growth of global electro‐mobility, the demand for cobalt is rapidly increasing
because it is currently an indispensable component of the cathode materials in lithium‐ion …

Na-ion cathode materials operating at high voltage with a stable cycling behavior are
needed to develop future high-energy Na-ion cells. However, the irreversible oxygen redox …

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 …

Elevating the charge voltage of LiCoO2 increases the energy density of batteries, which is
highly enticing in energy storage implementation ranging from portable electronics to e …

Oxygen redox at high voltage has emerged as a transformative paradigm for high-energy
battery cathodes such as layered transition-metal oxides by offering extra capacity beyond …

Over the past two decades, a series of aqueous rechargeable metal-ion batteries (ARMBs)
have been developed, aiming at improving safety, environmental friendliness and cost …