Keyphrases
Adhesion
100%
Cell Membrane
100%
Membrane Processes
100%
Membrane Architecture
100%
Membrane Function
100%
Thermoelasticity
100%
Force Control
50%
Lymphocytes
50%
Process-based
50%
Phase Separation
50%
Non-equilibrium
50%
Disjoining Pressure
50%
Material Transport
50%
Shape Change
50%
Structural Phase Transition
50%
Microdomain
50%
Phase Separation Process
50%
Cell Adhesion
50%
Regulatory Proteins
50%
Interaction Mechanism
50%
Microscopic Scale
50%
Physiological Temperature
50%
Lipid Bilayer
50%
Lipids
50%
Dual Role
50%
Cellular Compartments
50%
Elasticity Control
50%
Mechanical Force
50%
Substrate Proteins
50%
Thermoelastic
50%
Fluid Phase
50%
Elastic Force
50%
Adhesion Strength
50%
Lipid Transfer Protein
50%
Intracellular Compartments
50%
Domain Formation
50%
Fluid-filled
50%
Interfacial Forces
50%
Biomembranes
50%
Protein-lipid Interactions
50%
Specific Lipids
50%
Bending Energy
50%
Local Thermal Equilibrium
50%
Lock-and-key
50%
Pseudo-ternary System
50%
Adsorption Phase
50%
Membrane Undulations
50%
Repeller
50%
Equilibrium Situation
50%
Global Shape
50%
Biochemical Reactions
50%
Rapid Control
50%
Immunological Stimulation
50%
Phase Transition Control
50%
Engineering
Phase Separation
100%
Transients
50%
Microscopic Scale
50%
Mechanical Force
50%
Elastic Force
50%
Biochemicals
50%
Shape Change
50%
Fluid Phase
50%
Bending Energy
50%
Domain Formation
50%
Local Thermal Equilibrium
50%
Lymphocyte
50%
Nonequilibrium
50%
Ternary System
50%
Disjoining Pressure
50%
Lipid Bilayer
50%
Equilibrium Situation
50%
Phase Composition
50%
Biochemistry, Genetics and Molecular Biology
Liquid
100%
Lipid
100%
Membrane Architecture
100%
Phase Separation
100%
Cell Membrane
100%
Separation Method
50%
Cell Adhesion
50%
Lipid Bilayer
50%
Protein-Lipid Interaction
50%
Enzyme
50%
Biomembrane
50%
Lymphocyte
50%
Material Science
Elasticity
100%
Cell Membrane
100%
Bond Strength (Materials)
100%
Lipid Bilayer
100%
Phase Composition
100%
Lymphocyte
100%
Lipid-Protein Interaction
100%
Chemical Engineering
Phase Separation
100%
Separation Method
50%