Guyer, J.
, Boettinger, W.
, Warren, J.
and McFadden, G.
(2004),
Phase-Field Modeling for Eutectic Solidification, Jom
(Accessed November 8, 2024)
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Phase-Field Modeling for Eutectic Solidification
Published
Author(s)
, , ,
Abstract
A diffuse interface (phase field) model for a simple electrochemical system is developed. We describe the minimal set of components needed to model an electrochemical interface and present a Lagrangian derivation of te governing equations. With a simple set of assumptions: mass and volume contstraints, Poisson's equation, ideal solution thermodynamics in the bulk, and a simple description of the competing energies in the interface, the model captures the charge separation associated with the equilibrium double layer at the electrochemical interface and the decay of the electrostatic potential in the electrolyte agrees with the classical Gouy-Chapman and Debye-Huckel theories. We calculate the surface energy, surface charge, and differential capacitance as functions of potential and find qualitative agreement with existing theories and experiments. In particular, the differential capacitance curves exhibit complex shapes with multiple extrema, as exhibited in many electrochemical experiments.Citation
Jom
Volume
56
Issue
No. 4
Pub Type
Journals
Keywords
double layer, electrochemistry, phase field
Citation
Issues
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Created April 1, 2004, Updated June 2, 2021