Add to ORKGIn this paper, phase field models are developed for multi-component vesicle membranes with different lipid compositions and membranes with free boundary. These models are used to simulate the deformation of membranes under the elastic bending energy and the line tension energy with prescribed volume and surface area constraints. By comparing our numerical simulations with recent experiments, it is demonstrated that the phase field models can capture the rich phenomena associated with the membrane transformation, thus it offers great functionality in the simulation and modeling of multicomponent membranes
Vesicles formed by lipid bilayers (biomembranes) show a variety of interesting shapes that can be ex...
Recent developments in biology seems to indicate that the Fluid Mosaic model of membrane proposed by...
A chemically simple four-component model of animal cell plasma membranes can mimic some important pr...
In this work, we have developed a model and simulation method to study the thermodynamics and kineti...
Ryham, X. Wang and J. Zhang) on the phase field modeling and simulations of the vesicle membrane def...
AbstractA method for simulating a two-component lipid bilayer membrane in the mesoscopic regime is p...
We study vesicles formed by lipid bilayers that are governed by an elastic bending energy and on whi...
Heterogeneities in the cell membrane due to coexisting lipid phases have been conjectured to play a ...
In this paper, we study a surface model for membranes of three components such as DPPC, DOPC, and Ch...
AbstractDomain formation is modeled on the surface of giant unilamellar vesicles using a Landau fiel...
The dynamics of thin, membrane-like structures are ubiquitous in nature. They play especially import...
Model membrane systems are a useful tool for studying the role of lateral phase separation in relati...
Model membrane systems are a useful tool for studying the role of lateral phase separation in relati...
AbstractBiological membranes are known to contain compositional heterogeneities, often termed rafts,...
Biomembranes consisting of multiple lipids may involve phase separation phenomena leading to coexist...
Vesicles formed by lipid bilayers (biomembranes) show a variety of interesting shapes that can be ex...
Recent developments in biology seems to indicate that the Fluid Mosaic model of membrane proposed by...
A chemically simple four-component model of animal cell plasma membranes can mimic some important pr...
In this work, we have developed a model and simulation method to study the thermodynamics and kineti...
Ryham, X. Wang and J. Zhang) on the phase field modeling and simulations of the vesicle membrane def...
AbstractA method for simulating a two-component lipid bilayer membrane in the mesoscopic regime is p...
We study vesicles formed by lipid bilayers that are governed by an elastic bending energy and on whi...
Heterogeneities in the cell membrane due to coexisting lipid phases have been conjectured to play a ...
In this paper, we study a surface model for membranes of three components such as DPPC, DOPC, and Ch...
AbstractDomain formation is modeled on the surface of giant unilamellar vesicles using a Landau fiel...
The dynamics of thin, membrane-like structures are ubiquitous in nature. They play especially import...
Model membrane systems are a useful tool for studying the role of lateral phase separation in relati...
Model membrane systems are a useful tool for studying the role of lateral phase separation in relati...
AbstractBiological membranes are known to contain compositional heterogeneities, often termed rafts,...
Biomembranes consisting of multiple lipids may involve phase separation phenomena leading to coexist...
Vesicles formed by lipid bilayers (biomembranes) show a variety of interesting shapes that can be ex...
Recent developments in biology seems to indicate that the Fluid Mosaic model of membrane proposed by...
A chemically simple four-component model of animal cell plasma membranes can mimic some important pr...