Electrolyte and electrode designs for enhanced ion transport properties to enable high performance lithium batteries
B Boz, T Dev, A Salvadori… - Journal of The …, 2021 - iopscience.iop.org
Lithium-ion batteries (LiBs) are recognized as the most rapidly growing energy storage
technology. To improve the energy and power density of LiBs, tremendous progress has …
technology. To improve the energy and power density of LiBs, tremendous progress has …
Chemical lattice strain in nonstoichiometric oxides: an overview
DS Tsvetkov, VV Sereda, DA Malyshkin… - Journal of Materials …, 2022 - pubs.rsc.org
Strong coupling between the chemical composition and crystal lattice dimensions resulting
in the contraction or expansion of a material upon change of its chemical composition is …
in the contraction or expansion of a material upon change of its chemical composition is …
Designing cathodes and cathode active materials for solid‐state batteries
Solid‐state batteries (SSBs) currently attract great attention as a potentially safe
electrochemical high‐energy storage concept. However, several issues still prevent SSBs …
electrochemical high‐energy storage concept. However, several issues still prevent SSBs …
Stress evolution during cycling of alloy-anode solid-state batteries
Alloy anodes hold promise for enabling high-energy solid-state batteries, but their
substantial volume changes during charge/discharge can cause structural and mechanical …
substantial volume changes during charge/discharge can cause structural and mechanical …
Chemo-mechanical modeling of inter-and intra-granular fracture in heterogeneous cathode with polycrystalline particles for lithium-ion battery
Evolution of complex fracture patterns during electrochemical cycling for the polycrystalline
particulate cathode of lithium-ion batteries is found to be a primary reason towards capacity …
particulate cathode of lithium-ion batteries is found to be a primary reason towards capacity …
A consistent framework for chemo-mechanical cohesive fracture and its application in solid-state batteries
Damage and fracture can be induced not only by mechanical loading but also due to
chemical interactions within a solid. On one hand, species concentration may embrittle or …
chemical interactions within a solid. On one hand, species concentration may embrittle or …
Electro‐Chemo‐Mechanical Degradation in Solid‐State Batteries: A Review of Microscale and Multiphysics Modeling
A De Gol, KB Dermenci, L Farkas… - Advanced Energy …, 2024 - Wiley Online Library
Solid‐state batteries with lithium‐metal anodes have emerged as a promising alternative to
traditional lithium‐ion batteries thanks to their enhanced energy density and safety …
traditional lithium‐ion batteries thanks to their enhanced energy density and safety …
A continuum electro-chemo-mechanical gradient theory coupled with damage: Application to Li-metal filament growth in all-solid-state batteries
We formulate a thermodynamically-consistent electro-chemo-mechanical gradient theory
which couples electrochemical reactions with mechanical deformation and damage in …
which couples electrochemical reactions with mechanical deformation and damage in …
Models for the interplay of mechanics, electrochemistry, thermodynamics, and kinetics in lithium-ion batteries
VS Deshpande, RM McMeeking - Applied …, 2023 - asmedigitalcollection.asme.org
We review a broad range of topics related to the interplay of electrochemistry and mechanics
in all solid-state batteries. The modeling frameworks that exist in the literature are varied in …
in all solid-state batteries. The modeling frameworks that exist in the literature are varied in …
Phase Transformation and Microstructural Evolution of CuS Electrodes in Solid‐State Batteries Probed by In Situ 3D X‐Ray Tomography
Copper sulfide shows some unique physico‐chemical properties that make it appealing as a
cathode active material (CAM) for solid‐state batteries (SSBs). The most peculiar feature of …
cathode active material (CAM) for solid‐state batteries (SSBs). The most peculiar feature of …