The development of lithium–metal batteries (LMBs) has emerged as a mainstream approach
for achieving high‐energy‐density energy storage devices. The stability of electrochemical …

In P2-type layered transition metal (TM) oxides, which are typical cathode materials for Na-
ion batteries, the presence of Li within the TM layer could lead to the formation of specific Na …

Sodium-ion batteries are among the most promising alternatives to lithium-based
technologies for grid and other energy storage applications due to their cost benefits and …

The working mechanism of LiCoO2 beyond 4.6 V presents complicated issues:(1) the
ambiguous multistructural evolutions,(2) the vague O-related anionic redox reactions (ARR) …

Over the past decades, the utilization of Li-ion batteries has provided the benefits of high
energy and power density and can be used in a variety of applications, including electric …

Develo** sacrificial cathode prelithiation technology to compensate for active lithium loss
is vital for improving the energy density of lithium‐ion battery full‐cells. Li2CO3 owns high …

Quantifying the aging mechanisms and their evolution patterns during battery aging is
crucial for enabling renewable energy. Here, key factors are monitored and quantified …

The gas release within Li‐ion batteries, particularly during cycling and storage, can result in
rapid performance degradation and potential safety hazards. However, this area has not …

Rechargeable aqueous zinc-based batteries not only pave the way for environmentally
friendly and safe energy storage devices but also hold great promise for reducing the …

In the development of 3D conductive frameworks for lithium metal anode (LMA), two models
have been proposed: top growth model and bottom-up growth model. However, Li tends to …