Among the current battery technologies, lithium-ion batteries (LIBs) are essential in shaping
future energy landscapes in stationary storage and e-mobility. Among all components …

Concentration of electrolyte has significant effects on performances of rechargeable
batteries. Previous studies mainly focused on concentrated electrolytes. So far, only several …

The application of micrometer-sized silicon (mSi) is challenging due to the severe volume
change during cycling, resulting in serious pulverization of the mSi and detachment of active …

Lithium metal batteries offer a promising solution for high density energy storage due to their
high theoretical capacity and negative electrochemical potential. However, implementing of …

High‐level safety is of vital importance to the continuous pursuit of high‐energy‐density
batteries in the increasingly electrified world. The thermal instability and dendrite‐induced …

The dual‐ion battery (DIB) is a promising energy storage system that demonstrates high‐
power characteristics and fast‐charging capability. However, conventional electrolytes are …

Minimizing electrolyte use is essential to achieve high practical energy density of lithium–
sulfur (Li–S) batteries. However, the sulfur cathode is more readily passivated under a lean …

The practical application of high-voltage lithium cobalt oxide (LCO) has been hampered by
the severe degradation of its structural integrity. In this work, a protective bilayer was …

This study examines the compatibility of multielectrolyte additives for NMC–silicon lithium-
ion batteries. Research studies with Si-based anodes have shown stable reversible cycling …

Using cryogenic transmission electron microscopy, we revealed three-dimensional (3D)
structural details of the electrochemically plated lithium (Li) flakes and their solid electrolyte …