Surfaces and Interfaces

Course guarantor:

Lecturer:

Tutor:

Supervisor:

Department of Materials Engineering

Synopsis:

Surfaces and Interfaces definition, thermodynamical characterization

Surface properties - surface energy, roughness

Surface analyses and analytical methods

Hydrophylity, surface tension and their applications

Adsorption, catalysis

Adhesion, principle of adhesion

Surface treatment I chemical modification

Sourface treatment II grafting, thin films

Composites - role of the filler-matrix interfaces

Functional surfaces

Tribology

Metals interfaces between

Nanostructured materials, surface and nanoparticles

Requirements:

Syllabus of lectures:

Surfaces and Interfaces definition, thermodynamical characterization

Surface properties - surface energy, roughness

Surface analyses and analytical methods

Hydrophylity, surface tension and their applications

Adsorption, catalysis

Adhesion, principle of adhesion

Surface treatment I chemical modification

Sourface treatment II grafting, thin films

Composites - role of the filler-matrix interfaces

Functional surfaces

Tribology

Metals interfaces between

Nanostructured materials, surface and nanoparticles

Syllabus of tutorials:

Study Objective:

Study materials:

L..J.Brillson: An Essential Guide to Electronic Material Surfaces and Interfaces. Wiley 2016. ISBN 9781119027119

G. Wedler: Lehrbuch der Physkalischen Chemie. VCH 1987. ISBN 3-527-26702-6

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans: