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Lecture
Nanoparticles: Colloidal Systems and Particle Stabilization
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Related lectures (29)
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Colloidal Stability: Electrostatic Interactions & Aggregation Kinetics
Explores electrostatic interactions, surface charges, and aggregation kinetics in colloidal systems, emphasizing stability and ion adsorption.
Ceramic Powders: Electrostatic Repulsion and Steric Stabilization
Explores electrostatic repulsion, steric stabilization, and the rheology of ceramic powders.
Stabilization Mechanism of Colloidal Particles
Explores the stabilization mechanism of colloidal particles, emphasizing the importance of encapsulation for protection and controlled release.
Colloidal Stability and Hamaker Constant
Explores colloidal stability, Hamaker constant, and particle interactions in colloidal systems.
Nanoparticles: SEM and EDX Analysis
Explores SEM and EDX analysis of nanoparticles, colloidal crystal assembly, and agglomeration processes.
Powder Treatment: Rheology, Mixing, and Granulation
Explores the rheology, mixing, and granulation of ceramic powders, emphasizing the importance of compound mixing and granulation methods.
Polymer Solutions: Steric Stabilization & Micelles
Explores polymer solutions, steric stabilization, micelles, and colloids with a focus on surfactants.
Ceramic Powders: Fragmentation Operations
Explores ceramic powder transformation through fragmentation operations, particle rupture mechanisms, and interparticle forces like van der Waals forces.
Dispersion Forces: Interactions and Applications
Explores dispersion forces, Van der Waals interactions, and magnetic attractions in ceramics and biomedical applications.
Emulsions: Stabilization Mechanism
Explores how surfactants and colloidal particles stabilize emulsions through lowering interfacial tension and particle adsorption.
