Due to their high specific capacities beyond 250 mA hg− 1, lithium-rich oxides have been
considered as promising cathodes for the next generation power batteries, bridging the …

The increasing demands of energy storage require the significant improvement of current Li‐
ion battery electrode materials and the development of advanced electrode materials. Thus …

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 …

Magnesium batteries have long been pursued as potentially low-cost, high-energy and safe
alternatives to Li-ion batteries. However, Mg2+ interacts strongly with electrolyte solutions …

Earth-abundant cathode materials are urgently needed to enable scaling of the Li-ion
industry to multiply terawatt hours of annual production, necessitating reconsideration of …

Despite the high energy density of lithium-rich layered-oxide electrodes, their real-world
implementation in batteries is hindered by the substantial voltage decay on cycling. This …

Sodium ion batteries, because of their sustainability attributes, could be an attractive
alternative to Li-ion technology for specific applications. However, it remains challenging to …

Lithium-rich layered transition metal oxide positive electrodes offer access to anion redox at
high potentials, thereby promising high energy densities for lithium-ion batteries. However …

Rechargeable battery technologies have ignited major breakthroughs in contemporary
society, including but not limited to revolutions in transportation, electronics, and grid energy …

The reversibility and cyclability of anionic redox in battery electrodes hold the key to its
practical employments. Here, through map** of resonant inelastic X-ray scattering …