Add to ORKGUsing the recently developed Cahn-Hilliard reaction (CHR) theory, we present a simple math-ematical model of the transition from solid-solution radial diffusion to two-phase shrinking-core dynamics during ion intercalation in a spherical solid particle. This general approach extends previous Li-ion battery models, which either neglect phase separation or postulate a spherical shrinking-core phase boundary under all conditions, by predicting phase separation only under appropriate circumstances. The effect of the applied current is captured by generalized Butler-Volmer kinetics, formulated in terms of the diffusional chemical potential in the CHR theory. We also consider the effect of surface wetting or de-wetting by intercalated ions, which...
Lithium transport and phase separation in and across interconnected electrode particles, are investi...
Using a recently proposed mathematical model for intercalation dynamics in phase-separating material...
The size- and shape-dependency of the chemo-mechanical behavior of spherical and ellipsoidal nanopar...
Abstract. Lithium-ion batteries exhibit complex nonlinear dynamics, resulting from diffusion and pha...
Using the recently developed Cahn-Hilliard reaction (CHR) theory, we present a simple mathematical m...
Lithium-ion batteries exhibit complex nonlinear dynamics, resulting from diffusion and phase transfo...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mathematics, 2015.Cataloged fro...
Advances in the fields of catalysis and electrochemical energy conversion often involve nanoparticle...
A new continuum model has been proposed by Singh, Ceder, and Bazant for the ion interca-lation dynam...
The size- and shape-dependency of the chemo-mechanical behavior of spherical and ellipsoidal nanopar...
The size- and shape-dependency of the chemo-mechanical behavior of spherical and ellipsoidal nanopar...
Using a recently proposed mathematical model for intercalation dynamics in phase-separating material...
Lithium transport and phase separation in and across interconnected electrode particles are investig...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mathematics, 2009.This electronic v...
Lithium transport and phase separation in and across interconnected electrode particles, are investi...
Lithium transport and phase separation in and across interconnected electrode particles, are investi...
Using a recently proposed mathematical model for intercalation dynamics in phase-separating material...
The size- and shape-dependency of the chemo-mechanical behavior of spherical and ellipsoidal nanopar...
Abstract. Lithium-ion batteries exhibit complex nonlinear dynamics, resulting from diffusion and pha...
Using the recently developed Cahn-Hilliard reaction (CHR) theory, we present a simple mathematical m...
Lithium-ion batteries exhibit complex nonlinear dynamics, resulting from diffusion and phase transfo...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mathematics, 2015.Cataloged fro...
Advances in the fields of catalysis and electrochemical energy conversion often involve nanoparticle...
A new continuum model has been proposed by Singh, Ceder, and Bazant for the ion interca-lation dynam...
The size- and shape-dependency of the chemo-mechanical behavior of spherical and ellipsoidal nanopar...
The size- and shape-dependency of the chemo-mechanical behavior of spherical and ellipsoidal nanopar...
Using a recently proposed mathematical model for intercalation dynamics in phase-separating material...
Lithium transport and phase separation in and across interconnected electrode particles are investig...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mathematics, 2009.This electronic v...
Lithium transport and phase separation in and across interconnected electrode particles, are investi...
Lithium transport and phase separation in and across interconnected electrode particles, are investi...
Using a recently proposed mathematical model for intercalation dynamics in phase-separating material...
The size- and shape-dependency of the chemo-mechanical behavior of spherical and ellipsoidal nanopar...