Graphite is a perfect anode and has dominated the anode materials since the birth of lithium
ion batteries, benefiting from its incomparable balance of relatively low cost, abundance …

Reversibly intercalating ions into host materials for electrochemical energy storage is the
essence of the working principle of rocking-chair type batteries. The most relevant example …

Owing to the low cost, abundance and high working voltage, graphite cathodes have
attracted tremendous attention in rechargeable batteries, especially in aluminum ion …

Abstract Since 1994, Kinetic Monte Carlo (kMC) has been applied to the study of Li-ion
batteries and has demonstrated to be a remarkable simulation tool to properly describe the …

The application of in situ or operando characterization techniques is highly important to gain
a deeper understanding of the electrochemical and degradation processes that occur during …

Effective thermal management and tracking of battery degradation are two key challenges in
the improved management of battery packs. Entropy change measurement is a non …

Abstract Kinetic Monte Carlo simulations are applied to simulate the insertion of lithium ions
into graphite. The present results show how the kinetics of lithium ion intercalation in …

The effect of temperature on the kinetics of electrochemical insertion/removal of lithium in
graphite is analyzed by kinetic Monte Carlo methods. Different electrochemical techniques …

Abstract C 6/LiFePO 4 (LFP) batteries have been cycled at various temperatures (20 and 60
C) and State-of-Charge (SoC) ranges (0–30, 35–65, 70–100% and 0–100%). Electromotive …

To delve deeper into the kinetics involved in the staging phenomena of lithium insertion into
graphite, it is necessary to develop theoretical models that emulate the physical …