JOURNAL ARTICLE
Moving Boundary Model for the Discharge of a LiCoO2 Electrode
Year: 2008 Journal: ECS Transactions Vol: 6 (22)Pages: 33-52 Publisher: Institute of Physics
Abstract
A moving boundary model in a spherical LiCoO2 particle is presented to account for the diffusion controlled phase transition in LiCoO2 solid particles, and this model is incorporated into a porous electrode model for the LiCoO2 electrode. The simulation results agree well with the experimental data of a LiCoO2 electrode. A study of the flux distribution in the porous electrode shows that the phase transition phenomenon in the LiCoO2 particles has a significant effect on the flux distribution by changing the solid phase diffusion resistance in the particles.
Keywords:
Electrode Materials science Diffusion Flux (metallurgy) Particle (ecology) Porosity Phase transition Phase (matter) Mechanics Thermodynamics Chemistry Composite material Physics Metallurgy Geology
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Smart Materials for Construction
Physical Sciences → Environmental Science → Pollution
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