VI. Physical Properties of Materials Flashcards
Biological tissues show specific vatiations in physical propeteis on different scales
Relevance
Cellular response
Roughness, Patterning, Anisotropy - Roughness increases protein adsorption
Roughness, Patterning, Anisotropy - Roughness and blood activation
Roughness, Patterning, Anisotropy - Cellular response to nanoscale roughness
Roughness, Patterning, Anisotropy - Nanoporosity determnes cell adhesion spacing
Roughness, Patterning, Anisotropy - Adhesion spacing and differentiation
Roughness, Patterning, Anisotropy - Summary roughness and nanoporosity
Roughness, Patterning, Anisotropy - Contact guidance
Roughness, Patterning, Anisotropy - Anisotropic biomaterials surfaces
Roughness, Patterning, Anisotropy - Feedback of cell and matrix alignement
Mechanical properties - Stiffness and cell adhesion
Mechanical properties - Stiffness and cell migration
Mechanical properties - Measuring elastic properties
Mechanical properties - Stiffness and stem cell differentiation
Mechanical properties - Substrate stress relaxation regulates cell behaviour
Mechanical properties - How do cell “feel” stiffness?
Mechanical properties - Stiffness is scale-dependent
Mechanical properties - Controlling material/substrate stiffness
Geometry, Porosity, Curvature - Geometry of different length scales
Geometry, Porosity, Curvature - Macroscopic porosity determines
Geometry, Porosity, Curvature - Fabrication of porous materials
Geometry, Porosity, Curvature - Defined pore size
Geometry, Porosity, Curvature - Macroscopic geometry in 2D
Geometry, Porosity, Curvature - 3D shape and epithelial branching
