Precise prediction of lithium‐ion cell level aging under various operating conditions is an
imperative but challenging part of ensuring the quality performance of emerging applications …

The aging of lithium-ion batteries (LIBs) is synergistically influenced by multiple
chemical/mechanical degradation mechanisms. Therefore, conventional models that …

Aqueous zinc‐based batteries are emerging as highly promising alternatives to
commercially successful lithium‐ion batteries, particularly for large‐scale energy storage in …

Numerous interrelated coupled aging mechanisms contribute to the degradation of lithium-
ion batteries (LIBs), making it challenging to confirm the influence of aging effects on the …

An accurate state estimator is critical to Battery Management Systems (BMSs). In more
advanced BMSs, state estimators based on electrochemical-thermal battery models are …

The stress intensity factor is a widely used parameter in linear elastic fracture mechanics to
assess the stress field near the crack tip, and it is usually defined as the product between the …

Mechanical degradation is a significant cause of battery aging: the stress arising in the
electrode microstructure during operation causes fractures, leading to capacity and power …

Lithium-ion batteries undergo structural deformation during operation because of the
electrochemical-induced strain caused by the insertion of lithium ions inside the active …

This work sheds the light on the stress amplification in active material particles of electrodes
caused by the localized lithium concentration inhomogeneity due to phase transitions. This …

Flexible lithium batteries (FLBs) are highly regarded as potential candidates for next-
generation batteries due to their versatility in various applications. However, the main focus …