Keyphrases
Mathematical Modeling
100%
Biomembranes
100%
Free Boundary Problem
100%
Computational Methods
100%
Model Equation
100%
Bilayer Lipid Membrane
50%
Bilayer Model
50%
Coupled System
50%
Zero Thickness
50%
Partial Differential Equation Systems
50%
Complex Dynamics
50%
Continuum Theory
50%
Bending Rigidity
50%
Interface Evolution
50%
Stress Potential
50%
Sharp Edge
50%
Lipid Membrane
50%
Realistic Model
50%
Interface Conditions
50%
Electrofusion
50%
Membrane Capacitance
50%
Lipid Bilayer
50%
Asymptotic Methods
50%
Membrane Behavior
50%
Macropores
50%
Thin Liquid Film
50%
Thickness Model
50%
Stokes Equations
50%
Interface Membrane
50%
Electric Potential
50%
Physical Constants
50%
Electric Field (E-field)
50%
Membrane Interface
50%
Flow Field
50%
Three-dimensional (3D)
50%
Mathematical Model
50%
Engineering
Mathematical Modelling
100%
Equation Model
100%
Lipid Bilayer
100%
Membrane Interface
50%
Coupled System
50%
Transients
50%
Surrounding Liquid
50%
Bending Rigidity
50%
Interface Condition
50%
Stress Potential
50%
Experimental Work
50%
Physical Constant
50%
Applied Field
50%
Macropore
50%
Stokes Equation
50%
Electric Potential
50%
Mathematical Model
50%
Partial Differential Equation
50%
Electric Field
50%
Flow Distribution
50%
Liquid Film
50%
Mathematics
Mathematical Modeling
100%
Free Boundary Problem
100%
Complex Dynamic
50%
Edge
50%
Applied Field
50%
Stokes Equation
50%
Flow Field
50%
Membrane Bilayer
50%
Systems Of Partial Differential Equations
50%
Continuum Theory
50%
Rigidity
50%
Asymptotics
50%
Electric Field
50%