Digitale Lehre
This course is run via MOODLE. Contents can be retrieved from the MOODLE platform.
Lehrinhalte
[u]1. Surfaces of solids[/u]
1.1 Thermodynamics of surface formation
1.2 Structure of surfaces
1.3 Electronic structure of surface and surface potentials
[u]2. Kinetics of surface reactions[/u]
2.1 Physisorption and chemisorption
2.2 Surface diffusion
2.3 Surface reactions and catalysis
[u]3. Internal surfaces[/u]
3.1 Structural models
3.2 Shermodynamics of internal surfaces
3.3 Reactions at internal surfaces
3.4 Epitaxy and growth modes
[u]4. Solid/electrolyte interfaces[/u]
4.1 Thermodynamics and electrochemical double layers
4.2 Thermodynamics of electrochemical reactions
4.3 Kinetics of electrochemical reactions
4.4 Corrosion and corrosion modes
4.5 Electrocatalysis and fuel cells
[u]5. Interface engineering[/u]
5.1 Surface technology
5.2 Interface determined materials
5.3 Interface modification
Literatur
[list]
[*]H. Lüth, "Solid Surfaces, Interfaces and Thin Films", Springer (2015)
[*]K. Oura, V. G. Lifshits et al., "Surface Science", Springer (2003)
[*]K. Christmann, "Introduction to Surface Physical Chemistry", Springer (1991)
[*]F. Bechstedt, "Principles of Surface Physics", Springer (2003)
[*]M.A. Herman, H. Sitter, "Molecular Beam Epitaxy", Springer (1996)
[*]I. Chorkendorff, J. W. Niemantsverdriet, "Concepts of Modern Catalysis and Kinetics", Wiley-VCH (2017)
[*]G. Somorjai, Y. Li, "Introduction to Surface Chemistry and Catalysis", Wiley-VCH (2010)
[/list]
Voraussetzungen
Elementary knowledge in physics, especially quantum mechanics and solid
state physics; basic knowledge of mathematics
Online-Angebote
moodle
This course is run via MOODLE. Contents can be retrieved from the MOODLE platform.
Lehrinhalte
[u]1. Surfaces of solids[/u]
1.1 Thermodynamics of surface formation
1.2 Structure of surfaces
1.3 Electronic structure of surface and surface potentials
[u]2. Kinetics of surface reactions[/u]
2.1 Physisorption and chemisorption
2.2 Surface diffusion
2.3 Surface reactions and catalysis
[u]3. Internal surfaces[/u]
3.1 Structural models
3.2 Shermodynamics of internal surfaces
3.3 Reactions at internal surfaces
3.4 Epitaxy and growth modes
[u]4. Solid/electrolyte interfaces[/u]
4.1 Thermodynamics and electrochemical double layers
4.2 Thermodynamics of electrochemical reactions
4.3 Kinetics of electrochemical reactions
4.4 Corrosion and corrosion modes
4.5 Electrocatalysis and fuel cells
[u]5. Interface engineering[/u]
5.1 Surface technology
5.2 Interface determined materials
5.3 Interface modification
Literatur
[list]
[*]H. Lüth, "Solid Surfaces, Interfaces and Thin Films", Springer (2015)
[*]K. Oura, V. G. Lifshits et al., "Surface Science", Springer (2003)
[*]K. Christmann, "Introduction to Surface Physical Chemistry", Springer (1991)
[*]F. Bechstedt, "Principles of Surface Physics", Springer (2003)
[*]M.A. Herman, H. Sitter, "Molecular Beam Epitaxy", Springer (1996)
[*]I. Chorkendorff, J. W. Niemantsverdriet, "Concepts of Modern Catalysis and Kinetics", Wiley-VCH (2017)
[*]G. Somorjai, Y. Li, "Introduction to Surface Chemistry and Catalysis", Wiley-VCH (2010)
[/list]
Voraussetzungen
Elementary knowledge in physics, especially quantum mechanics and solid
state physics; basic knowledge of mathematics
Online-Angebote
moodle
- Lehrende: Karsten Durst
- Lehrende: Jan Philipp Hofmann
- Lehrende: Bernhard Kaiser
- Lehrende: Ulrike Kramm
- Lehrende: Marc Ledendecker
Semester: WT 2020/21