Electric Double Layer: Theory and Modelling

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Explains the electric double layer on charged surfaces in solution, focusing on the Helmholtz model and its limitations.

Charged Surfaces: DLVO Model & Aggregation Kinetics

Explores charged surfaces, DLVO model, aggregation kinetics, surface charging, Poisson-Boltzmann equation, double layer structure, zeta potential measurement, and practical applications.

Electrokinetic Phenomena: Double Layer and Flow Dynamics

Explores electrokinetic phenomena, including colloidal particle motion and the diffuse double layer model in chemical separations.

Colloid Stability: DLVO Theory and Membrane Potential

Explores the DLVO theory and membrane potential to understand colloid stability and forces between charged surfaces.

Colloids: Particle Motion and Stabilization

Explores colloids, particle motion, stabilization forces, and sedimentation speed, including electrostatic and steric stabilization, colloidal dispersions, and zeta potential measurements.

Surface Potential Measurement: Zeta Potential

Explores zeta potential measurement, DLVO theory, and colloidal stability in surface interactions and aggregation kinetics of colloidal suspensions.

Interfacial Chemistry: Surface Tension, Adsorption, Electrokinetics

Covers surface tension, adsorption, and electrokinetics, including gas/liquid interface, Langmuir isotherm, and electro-osmosis.

Charge Transfer Mechanisms

Explores the Butler-Volmer model, electrode surface region, electric double layer, multi-step mechanisms, Marcus theory, and electron tunneling.

Surface Charge in Soil Behavior

Explores the behavior of soils with oxide surfaces and the impact of surface charge on soil behavior.

Plasma Physics: Debye Length

Explores the rigorous definition of plasma, emphasizing the Debye length and its implications.