Insulation | | | | | |
Non-Deforming Boundary | | | | | |
Charge-Discharge Cycling | | | | | |
Circuit Terminal | | | | | |
Current | | | | | |
Current Density | | | | | |
Electrode Power | | | | | |
External Short | | | | | |
Ground | | | | | |
Potential | | | | | |
Thin Electrode Layer | | | | | |
Thin Electrode Surface | | | | | |
Boundary Electrochemical Heat Source | | | | | |
Corroding Electrode | | | | | |
Deforming Electrode Surface | | | | | |
Depositing Electrode | | | | | |
Dissolving-Depositing Species | | | | | |
Double Layer Capacitance | | | | | |
Film Resistance | | | | | |
Heat of Reaction | | | | | |
Non-Faradaic Reactions | | | | | |
Electrode Reaction | | | | | |
Butler-Volmer Kinetics | | | | | |
Concentration Dependent Kinetics | | | | | |
Fast Irreversible Electrode Reaction | | | | | |
Lithium Metal Deposition | | | | | |
Tafel Kinetics | | | | | |
Thermodynamic Equilibrium (Primary Condition) | | | | | |
User defined | | | | | |
Concentration | | | | | |
Current | | | | | |
Current Density | | | | | |
Electrode Surface | | | | | |
Fast Irreversible Surface Reaction | | | | | |
Flux | | | | | |
Infinite Electrolyte | | | | | |
Inflow | | | | | |
Ion-Exchange Membrane Boundary | | | | | |
No Flux | | | | | |
Open Boundary | | | | | |
Outflow | | | | | |
Thin Electrolyte Layer | | | | | |
Continuity | | | | | |
Insulation | | | | | |
Symmetry | | | | | |
Electric Reference Potential | | | | | |
Electrode Potential at Edges and Points | | | | | |
Electrolyte Potential at Edges and Points | | | | | |
Line Current Source | | | | | |
Point Current Source | | | | | |
Reference Electrode | | | | | |
Edge Electrode | | | | | |
Double Layer Capacitance | | | | | |
Electrode Reaction | | | | | |
Sacrificial Edge Anode | | | | | |
Electrode Reaction | | | | | |
Wiring Edges | | | | | |
Battery Electrode Materials with Equilibrium Potentials | | | | | |
Battery Electrolytes | | | | | |
Battery Equivalent Circuit | | | | | |
Battery with Binary Electrolyte | | | | | |
Corrosion, Primary | | | | | |
Corrosion, Secondary | | | | | |
Corrosion, Tertiary | | | | | |
Current Distribution, Boundary Elements | | | | | |
Current Distribution, Shell | | | | | |
Electroanalysis | | | | | |
Electrode, Shell | | | | | |
Electrodeposition, Primary | | | | | |
Electrodeposition, Secondary | | | | | |
Electrodeposition, Tertiary, Nernst-Planck | | | | | |
Lead-Acid Battery | | | | | |
Lithium-Ion Battery | | | | | |
Lumped Battery | | | | | |
Primary Current Distribution | | | | | |
Secondary Current Distribution | | | | | |
Single Particle Battery | | | | | |
Tertiary Current Distribution, Nernst-Planck | | | | | |
AC Impedance | | | | | |
Cyclic Voltammetry | | | | | |
Stationary with Initialization | | | | | |
Time Dependent with Initialization | | | | | |
1D, 2D, Axisymmetric, and 3D Formulations | | | | | |
Current and Species Transport in Concentrated Binary Electrolytes | | | | | |
Domain Deformations Coupled To Electrochemistry | | | | | |
Electrochemical Heating Multiphysics Coupling | | | | | |
Electrolyte | | | | | |
Intercalating Species (Li, Hydrogen, or other) | | | | | |
Ion-Exchange Membrane | | | | | |
Reactions | | | | | |
Separator | | | | | |
Solid Electrolyte Interface (SEI) | | | | | |
Effective Transport Parameter Correction | | | | | |
Bruggeman | | | | | |
Tortuosity | | | | | |
User Defined | | | | | |
Porous Electrode | | | | | |
Dissolving-Depositing Species | | | | | |
Film Resistance | | | | | |
Non-Faradaic Reaction | | | | | |
Porous Electrode Reaction | | | | | |
Porous Matrix Double Layer Capacitance | | | | | |
Electronic | | | | | |
Ionic | | | | | |
Electrode | | | | | |
Electrolyte | | | | | |
Reservoir | | | | | |
Separator | | | | | |
Negative Porous Electrode | | | | | |
Positive Porous Electrode | | | | | |
Concentrated Binary Electrolyte | | | | | |
Initial Cell Charge Distribution | | | | | |
Additional Porous Electrode Material | | | | | |
Li Intercalation | | | | | |
Negative Electrode | | | | | |
Positive Electrode | | | | | |
Solid Electrolyte Interface (SEI) | | | | | |
Stress and Strain in Electrode Particles | | | | | |