Explores the definition, key properties, synthesis schemes, and applications of hydrogels as biomaterials, emphasizing their importance in drug delivery, tissue engineering, and cell biology.
Explores the use of polymers, hydrogels, and particles in various biomaterials applications, covering topics such as drug delivery, cell adhesion, and tissue engineering.
Covers the use of macro-materials in tissue engineering, including key components, scaffold classification, bioresorbable polymers, and hydrogel applications.
Explores the use of nanomaterials in tissue engineering, covering scaffold construction, fiber bonding, rapid prototyping, and enhancement of electrical properties.
Explores the classification, molecular structures, mechanical behavior, and viscoelastic properties of polymers, emphasizing temperature effects and material responses.
Covers the basics of polymer biophysics, including DNA conformation modeling and the Boltzmann principle, emphasizing the exponential decay of correlations between segments.
