Interpretation of impedance spectroscopy data requires both a description of the chemistry
and physics that govern the system and an assessment of the error structure of the …

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

Since the advent of the Li ion batteries (LIBs), the energy density has been tripled, mainly
attributed to the increase of the electrode capacities. Now, the capacity of transition metal …

To advance current Li rechargeable batteries further, tremendous emphasis has been made
on the development of anode materials with higher capacities than the widely …

A solid electrolyte interphase (SEI) is generated on the anode of lithium-ion batteries during
the first few charging cycles. The SEI provides a passivation layer on the anode surface …

Over the past 30 years, significant commercial and academic progress has been made on Li‐
based battery technologies. From the early Li‐metal anode iterations to the current …

The electrode/electrolyte interface plays a critical role in stabilizing the cycling performance
and prolonging the service life of rechargeable batteries to meet the sustainable energy …

Abstract The Solid-Electrolyte-Interphase (SEI) model for non-aqueous alkali-metal batteries
constitutes a paradigm change in the understanding of lithium batteries and has thus …

The layered nickel‐rich cathode materials are considered as promising cathode materials
for lithium‐ion batteries (LIBs) due to their high reversible capacity and low cost. However …

The electrode–electrolyte interface has been a critical concern since the birth of lithium (Li)-
based batteries (lithium or Li+-ion batteries) that are operated with liquid electrolytes and in …