A review on modeling of electro-chemo-mechanics in lithium-ion batteries
Investigations on the fast capacity loss of Lithium-ion batteries (LIBs) have highlighted a rich
field of mechanical phenomena occurring during charging/discharging cycles, to name only …
field of mechanical phenomena occurring during charging/discharging cycles, to name only …
Chemistry–mechanics–geometry coupling in positive electrode materials: a scale-bridging perspective for mitigating degradation in lithium-ion batteries through …
Despite their rapid emergence as the dominant paradigm for electrochemical energy
storage, the full promise of lithium-ion batteries is yet to be fully realized, partly because of …
storage, the full promise of lithium-ion batteries is yet to be fully realized, partly because of …
Effect of crystallite geometries on electrochemical performance of porous intercalation electrodes by multiscale operando investigation
Lithium-ion batteries are yet to realize their full promise because of challenges in the design
and construction of electrode architectures that allow for their entire interior volumes to be …
and construction of electrode architectures that allow for their entire interior volumes to be …
Self-healing lamellar structure boosts highly stable zinc-storage property of bilayered vanadium oxides
G Yang, T Wei, C Wang - ACS applied materials & interfaces, 2018 - ACS Publications
Rechargeable aqueous zinc-ion batteries have been considered one of the promising
alternative energy-storage systems to lithium ion-batteries owing to their low cost and high …
alternative energy-storage systems to lithium ion-batteries owing to their low cost and high …
[HTML][HTML] Reversible Mg-ion insertion in a metastable one-dimensional polymorph of V2O5
The Li-ion paradigm of battery technology is constrained by the monovalency of the Li ion. A
straightforward solution is to transition to multivalent-ion chemistries, where Mg 2+ is the …
straightforward solution is to transition to multivalent-ion chemistries, where Mg 2+ is the …
Defining Diffusion Pathways in Intercalation Cathode Materials: Some Lessons from V2O5 on Directing Cation Traffic
The invention of rechargeable batteries has dramatically changed our landscapes and lives,
underpinning the explosive worldwide growth of consumer electronics, ushering in an …
underpinning the explosive worldwide growth of consumer electronics, ushering in an …
Green Environmentally Friendly “Zn(CH3SO3)2” Electrolyte for Aqueous Zinc-Ion Batteries
Aqueous zinc-ion batteries are considered as an ideal substitute for lithium-ion batteries due
to their abundant resource storage, high safety, and low price. However, zinc anodes exhibit …
to their abundant resource storage, high safety, and low price. However, zinc anodes exhibit …
Coupled chemo-mechanical modeling of fracture in polycrystalline cathode for lithium-ion battery
A thermodynamically consistent multi-physics framework has been developed to understand
the chemo-mechanical interplay towards fracture behavior of polycrystalline microstructure …
the chemo-mechanical interplay towards fracture behavior of polycrystalline microstructure …
Stabilizing hybrid electrochromic devices through pairing electrochromic polymers with minimally color-changing ion-storage materials having closely matched …
Conjugated electrochromic polymers hold great promises for next-generation color-
changing windows and displays. One of the major roadblocks in their solid-state …
changing windows and displays. One of the major roadblocks in their solid-state …
[HTML][HTML] A chemo-mechanical damage model at large deformation: numerical and experimental studies on polycrystalline energy materials
The unique mechanical properties and transport features of grain boundaries (GBs) in
polycrystalline materials have been widely investigated. However, studies which focus on …
polycrystalline materials have been widely investigated. However, studies which focus on …