Because of their numerous advantages, lithium-ion (Li-ion) batteries have recently become
a focus of research interest for vehicle applications. Li-ion batteries are suitable for electric …

The diffusion coefficient and exchange current density are the two dominant parameters that
determine the electrochemical characteristics of the electrochemical battery model …

Recycling spent lithium-ion batteries plays a significant role in alleviating the shortage of raw
materials and environmental problems. However, recycled materials are deemed inferior to …

Electrochemical models are more and more widely applied in battery diagnostics,
prognostics and fast charging control, considering their high fidelity, high extrapolability and …

Accurate identification of physical parameters of a lithium-ion electrochemical model is of
critical importance for next-generation battery management systems. The complexity of the …

Recent high-energy lithium-ion batteries contain highly densified electrodes, but they are
expected to endure fast charging without safety compromises or accelerated aging. To …

The lithium-ion battery (LIB) field is moving towards the direction of investigating spatially
resolved physical phenomena in the 3D porous microstructure of electrodes. These pore …

Battery electrodes are composed of polydisperse particles and a porous, composite binder
domain. These materials are arranged into a complex mesostructure whose morphology …

Local variations of mechanical, structural, transport, and kinetic properties, referred to as
heterogeneity can detrimentally affect battery life and performance. Local heterogeneity …

This review focuses on energy storage materials modeling, with particular emphasis on Li-
ion batteries. Theoretical and computational analyses not only provide a better …