Solid electrolyte interphase (SEI) has been widely recognized as the most important and the
least understood component in lithium batteries. Considering the intrinsic instability in both …

The electrode–electrolyte interface is one of the major components enabling Li‐ion batteries
(LIBs) to function reversibly. Often, the solid–electrolyte interphase (SEI) at the anode is …

The capacity fade of modern lithium ion batteries is mainly caused by the formation and
growth of the solid–electrolyte interphase (SEI). Numerous continuum models support its …

Silicon anodes promise high energy densities of next‐generation lithium‐ion batteries, but
suffer from shorter cycle life. The accelerated capacity fade stems from the repeated fracture …

Battery life prediction is steadily becoming more relevant due to the increased use of
batteries in stationary and mobile applications. Current semi-empirical aging models are …

Environmental pollution and global warming have propelled the research activities toward
the substitution of toxic materials with environmentally acceptable components in various …

Surface effects, in general, and surface stresses, in particular, become increasingly
important while venturing into the realm of nanoscale particles. A fundamental framework is …

Surface stresses, in nano-sized battery anode particles undergoing chemomechanical
interactions, have a compressive effect on diffusion-induced stresses. This, on the one hand …

Auf Grund der bislang fehlenden Möglichkeiten elektrische Energie in großem Umfang im
Stromnetz zwischen zu speichern sind moderne Batteriespeicher ein zentrales Bindeglied …

Battery aging is an inevitable macroscopic phenomenon in the use of the battery, which is
characterized by capacity decline and power reduction. If the charging and discharging …