Lecture

Materials for Biomaterials: Overview & Applications

Related lectures (31)

Explores the use of polymers, hydrogels, and particles in various biomaterials applications, covering topics such as drug delivery, cell adhesion, and tissue engineering.

Drug Delivery and Targeting

Covers biomaterials for drug delivery, targeting strategies, ligands-receptors, and multivalency theory in drug targeting.

Characterisation and Performance: Hydrogels and Biomaterial Properties

Explores the characterisation and performance of biomaterials, focusing on hydrogels and various properties like stiffness, degradation, swelling, and biocompatibility.

Immune Engineering: Materials and Applications

Covers the basics of immune engineering, materials for drug delivery, vaccination, and cancer immunotherapy, including current research examples.

Sol-Gel Process: Glass Machining and Synthesis of Silica Nanoparticles

Explores the sol-gel process, glass machining, silica nanoparticles synthesis, and polymer microfabrication.

Nanomaterials in Tissue Engineering

Explores the use of nanomaterials in tissue engineering, covering scaffold construction, fiber bonding, rapid prototyping, and enhancement of electrical properties.

Cell Adhesion and the ECM

Explores cell adhesion, the ECM, drug delivery, immune engineering, and tissue engineering, emphasizing the dynamic nature of ECM and its crucial role in tissue strength and homeostasis.

Extracellular Matrix and Cell Communication

Explores the extracellular matrix, cell-ECM interactions, and bacterial systems.

Cell Adhesion and ECM Interaction

Explores cell adhesion, ECM interaction, mechanical sensors, stiffness effect on cell differentiation, and artificial matrices for tissue engineering.

Surfaces: Biomaterial Interactions and Modifications

Explores biomaterial interactions, surface modifications, cell adhesion, nanotopography, antifouling strategies, and SLIPS technology.

Extracellular Matrix: Structure, Function, and Engineering

Discusses the structure and function of the extracellular matrix and its engineering for tissue applications.

Soft Matter Overview

Covers the properties of soft matter, including self-assembly, polymers, colloids, intermolecular forces, and the significance of soft materials in diverse applications.

Mechanobiology of Single Cells

Covers how bacteria sense and respond to forces, exploring bacterial cell structures, adhesion mechanisms, motility, and mechanotransduction.

Invasion & Metastasis: Mechanisms and Implications

Explores the mechanisms of cancer invasion and metastasis, emphasizing the critical role of cell adhesion, signaling rewiring, and organotropism.

Mechanobiology of Cell Growth

Explores the mechanobiology of cell growth, focusing on essential components, force curve-based sample characterization, and the impact of turgor pressure on growth.

Total scattering and PDF analysis

Explores total scattering and PDF analysis in materials science, covering in-situ synthesis, data analysis techniques, and applications in host-guest systems.

Nanocubes and Regenerative Medicine

Discusses the use of carbon nanocubes in cell interactions and their potential applications in regenerative medicine.

Material Engineering in Cancer Immunotherapy

Covers the evasion of immune pressure by tumors, cancer immunotherapies, drug delivery strategies, and the impact of nanoparticle characteristics on tumor penetration.

Polymer Swelling Behavior

Explores the swelling behavior of polymers and its influencing factors, such as crosslinking density and solvent nature.

Deformation and Creep in Materials

Explores deformation, creep, material properties, mechanical tests, ceramics, polymers, metals, and atomic bonds.