Lithium-metal batteries with high energy/power densities have significant applications in
electronics, electric vehicles, and stationary power plants. However, the unstable lithium …

Rechargeable Li metal batteries are currently limited by safety concerns, continuous
electrolyte decomposition and rapid consumption of Li. These issues are mainly related to …

The diffusion behavior of lithium (Li) ions on the solid–electrolyte interphase (SEI) is
fundamentally essential to Li metal batteries, whereas the underlying microscopic …

The solid–electrolyte interphase (SEI) critically governs the performance of rechargeable
batteries. An ideal SEI is expected to be electrically insulative to prevent persistently …

Lithium metal batteries (LMBs) have the potential to significantly increase the energy density
of advanced batteries in the future. Nonetheless, the dendritic lithium structures and low …

Electron leakage through the solid-state electrolyte interphase (SEI) in Li-ion batteries
causes the reduction of the electrolyte and the consumption of Li-ions, decreasing the …

Polyethylene (PE) diaphragm has become broadly used in lithium-ion battery systems
because of its high strength, exceptional plasticity, and resistance to organic solvents …

Li metal has been a promising anode material for high-energy-density batteries because of
its ultrahigh theoretical capacity, but its practical application is hindered by serious dendrite …

All-solid-state Li-ion batteries (ASSLB) with solid electrolytes (SEs) have enhanced safety
and higher volumetric/gravimetric energy density than conventional Li-ion batteries with …