Lithium bis (oxalate) borate (LiBOB) is one of the most common film‐forming electrolyte
additives used in lithium ion batteries (LIBs), since it can form a dense boron‐containing …

Lithium‐rich manganese‐based layered oxides (LMLOs) are considered to be one type of
the most promising materials for next‐generation cathodes of lithium batteries due to their …

Transitioning toward more sustainable materials and manufacturing methods will be critical
to continue supporting the rapidly expanding market for lithium-ion batteries. Meanwhile …

Prelithiation as a facile and effective method to compensate the lithium inventory loss in the
initial cycle has progressed considerably both on anode and cathode sides. However, much …

High-capacity cobalt-free lithium-rich manganese-based oxide (LMNO) is a crucial
representative of high-energy-density lithium-ion batteries (LIBs). However, the collaboration …

High‐voltage lithium metal batteries (LMBs) are capable to achieve the increasing energy
density. However, their cycling life is seriously affected by unstable electrolyte/electrode …

Triggering O-related anionic redox reactivity can introduce additional capacity in Li-rich
layered oxide (LRLO) cathode, while, activated oxygen species also threatens to electrode …

Increasing the cut‐off voltage of cathodes can improve the energy density of Li|| LiCoO2
batteries. However, the electrolyte and cathode suffer from oxidation and deterioration at …

The carbonate electrolyte chemistry is a primary determinant for the development of high‐
voltage lithium metal batteries (LMBs). Unfortunately, their implementation is greatly plagued …

The development of high‐energy density batteries is of utmost importance for various
applications. However, the utilization of numerous high‐capacity materials is impeded by the …