Lectures related to Capillarity and Surface Tension

Solid Liquid Interfaces: Young's Theorem and Cassie Equation

Explores Young's Theorem and the Cassie Equation for solid-liquid interfaces.

Interfaces: Thermodynamics and Applications

Explores the thermodynamics of interfaces, emphasizing the concept of work of addition and its applications in material science.

Gas/Liquid Interface: Fundamentals

Covers the fundamentals of gas-liquid interfaces, including surface tension and capillary action.

Capillarity and Wetting

Explores capillarity, wetting, and surface tension, discussing contact angles, hysteresis, and wetting states.

Interfacial Chemistry: Introduction & Importance

Covers the basics of interfacial chemistry, including emulsions, surface tension, and the importance of interfaces in various applications.

Wettability and Capillary Length

Explores wettability, force balance, wetting behavior, and capillary length in liquids.

Surfaces and Interfaces: Thermodynamics and Kinetics

Explores surface and interface energy, wetting kinetics, and the impact of geometric and chemical inhomogeneities on wetting behavior.

Capillarity and Wetting: Fundamentals and Applications

Explores capillarity, wetting, nucleation, boiling, and condensation in liquid-vapor phase change applications.

Surface Tension: Fundamentals and Applications

Covers the fundamentals of surface tension, adhesion forces, and laser manufacturing technologies.

Surface tension: microscopic interpretation

Explores surface tension's microscopic interpretation and its impact on creating interfaces between immiscible fluids.

Two-Phase Flows: Final Review

Provides a comprehensive review of Two-Phase Flows and Heat Transfer topics, including pool boiling, capillarity, wetting, and flow regimes.

Ceramic Processing: Dispersion and Wetting

Explores the production of ceramic pastes, dispersion, wetting, surface tension, and the lotus leaf effect.

Introduction to Surface Science

Introduces MSE-304, emphasizing the importance of Surface Science for sustainability and technological advancements.

Newton's Laws: Fundamentals

Explores Newton's laws of motion, fundamental forces in nature, and the unification of interactions.

Surface Tension: Adhesion & Cohesion

Explores surface tension, adhesion, cohesion, intermolecular forces, and the Young equation in relation to various materials and liquids.

Surface Forces: Electrostatic & Van der Waals Interactions

Explores electrostatic and van der Waals forces, adhesion in geckos, and methods to prevent stiction in microsystems.

Thermodynamics of Interfaces

Delves into the fundamentals of interfacial chemistry, covering topics such as the Gibbs dividing plane and surface excess quantities.

Ceramic Processing: Wetting and Dispersion

Explores wetting and dispersion of ceramic powders, surface tension, additives, and microstructure control.

Surface Properties: Understanding Semiconductors and Nanomaterials

Covers the significance of surface properties in semiconductors and nanomaterials, including surface energy, reconstruction, and the effects of surface states on electronic behavior.

Solid-Solid Interfaces: Understanding Grain Boundaries and Interfaces

Delves into solid-solid interfaces, exploring grain boundaries, material properties, and interface geometry.