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 …

For lithium-ion rechargeable batteries to meet society's ever-growing demands in electrical
energy storage, eg for the electrification of transportation, for portable electronics and for grid …

Abstract Li [Li x Ni y Mn z Co1− x− y− z] O2 (lithium-rich NMCs) are benchmark cathode
materials receiving considerable attention due to the abnormally high capacities resulting …

The energy density delivered by a Li-ion battery is a key parameter that needs to be
significantly increased to address the global question of energy storage for the next 40 …

The extraordinarily high capacities delivered by lithium‐rich oxide cathodes, compared with
conventional layered oxide electrodes, are a result of contributions from both cationic and …

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

Li 2 MnO 3 has been considered to be a representative Li-rich compound with active
debates on oxygen activities. Here, by evaluating the Mn and O states in the bulk and on the …

The Li-excess oxide compound is one of the most promising positive electrode materials for
next generation batteries exhibiting high capacities of> 300 mA hg− 1 due to the …

The high‐energy‐density, Li‐rich layered materials, ie, xLiMO2 (1‐x) Li2MnO3, are
promising candidate cathode materials for electric energy storage in plug‐in hybrid electric …

Lithium ion batteries (LIBs) have emerged as an important power source for various
applications including portable electronics, military, space etc. Cathode materials play an …