The battery is an electrochemical system that may be considered a black box with no
practical way of observing processes occurring within in a nondestructive manner at an …

Increasing the loading and calendering density of Ni-rich cathodes by adopting a mixture of
small to large particles is a practical way to create high-energy lithium-ion batteries …

To non‐destructively resolve and diagnose the degradation mechanisms of lithium‐ion
batteries (LIBs), it is necessary to cross‐scale decouple complex kinetic processes through …

The precise assessment of the kinetic properties of graphite is crucial for the design of the
material and the development of electrochemical models for lithium-ion batteries. However …

In this study, we present a novel multiscale electrochemo-mechanical model for porous
electrodes in lithium-ion batteries (LIBs). Building upon the theory of finite deformation and …

Reasonable design of high-rate, long-life anode materials is the key to manufacturing
advanced lithium-ion batteries. Herein, we synthesized the heterometallic (Ni, Co) 4, 4' …

Extended from the electrochemo-mechanical single particle model, an electrochemo-
mechanical impedance model for porous electrode in LIB, which consider the effect of the …

The safety and durability of lithium-ion batteries under mechanical constraints depend
significantly on electrochemical, thermal, and mechanical fields in applications …

In this paper, a time-frequency model is developed to investigate the coupling between Li
diffusion and material stress in composite electrode of lithium-based all-solid-state battery …

In this study, single-particle electrode technique is adopted to measure the impedance
response of SiO x materials for the first time. The electrochemical impedance spectroscopies …