Battery modeling has become increasingly important with the intensive development of Li‐
ion batteries (LIBs). The porous electrode model, relating battery performances to the …

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

Emphasis on clean energy has led to a widespread focus on lithium-ion batteries. However,
a major obstacle is their degradation with several cycles or calendar aging. Battery …

In support of GM's traction battery efforts, we derived and implemented a method to describe
the electrochemical performance of a battery cell considering the nuances of the electrode …

Abstract The Doyle–Fuller–Newman (DFN) model serves as a fundamental electrochemical
modeling framework widely used in the field of lithium-ion batteries, especially in its pseudo …

Sodium-ion batteries (SIBs) have recently been proclaimed as the frontrunner'post
lithium'energy storage technology. This is because SIBs share similar performance metrics …

Lithium-ion batteries are typically modeled using porous electrode theory coupled with
various transport and reaction mechanisms, along with suitable discretization or …

The intricate interplay of multi-scale and multi-physics phenomena within battery systems
poses a substantial challenge in harmonizing microscopic electrochemical processes. This …

Several efficient analytical methods have been developed to solve the solid-state diffusion
problem, for constant diffusion coefficient problems. However, these methods cannot be …

Abstract Volume 1, Issue 1 of Mathematical Biosciences was the venue for a now-classic
paper on the application of singular perturbation theory in enzyme kinetics,“On the …