To address the capacity degradation, voltage fading, structural instability and adverse
interface reactions in cathode materials of lithium-ion batteries (LIBs), numerous …

Mobile and stationary energy storage by rechargeable batteries is a topic of broad societal
and economical relevance. Lithium‐ion battery (LIB) technology is at the forefront of the …

The accelerating development of technologies requires a significant energy consumption,
and consequently the demand for advanced energy storage devices is increasing at a high …

In order to satisfy the energy demands of the electromobility market, both Ni‐rich and Li‐rich
layered oxides of NCM type are receiving much attention as high‐energy‐density cathode …

Nickel-rich NMC (LiNi x Mn y Co 1− x− y O 2, x⩾ 0.8) electrode materials are known for their
great potential as lithium battery cathode active materials due to their high capacities, low …

Li and Mn‐rich layered oxides, xLi2MnO3·(1–x) LiMO2 (M= Ni, Mn, Co), are promising
cathode materials for Li‐ion batteries because of their high specific capacity that can exceed …

Ni‐rich layered oxides and Li‐rich layered oxides are topics of much research interest as
cathodes for Li‐ion batteries due to their low cost and higher discharge capacities compared …

The lithium‐and manganese‐rich (LMR) layered structure cathodes exhibit one of the
highest specific energies (≈ 900 W h kg− 1) among all the cathode materials. However, the …

Li‐rich Mn‐rich layered oxides (LRLO) are considered promising cathode materials for high
energy density storage because of their very high capacities that owe to the reversible redox …

Rechargeable lithium‐ion batteries have become the dominant power sources for portable
electronic devices, and are regarded as the battery technology of choice for electric vehicles …