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Master Advanced Functional Materials (FAME)


Sommersemester 2017


2 Methods in Materials Science

Method Course: Coordination Materials (Practical Course) [4 SWS]
H. Bunzen
Method Course: Electron Microscopy [2 SWS]
F. Haider, M. Klemm
Method Course: Electron Microscopy (Practical Course) [4 SWS]
F. Haider, M. Klemm
Method Course: Electronics for Physicists and Materials Scientists [4 SWS]
A. Hörner
Method Course: Electronics for Physicists and Materials Scientists (Practical Course) [3 SWS]
A. Hörner
Method Course: Functional Silicate-analogous Materials (Practical Course) [6 SWS]
H. Höppe
Method Course: Optical Properties of Solids [2 SWS]
J. Deisenhofer
Method Course: Optical Properties of Solids (Practical Course) [4 SWS]
J. Deisenhofer
Method Course: Methods in Biophysics [2 SWS]
C. Westerhausen, S. J. Thalhammer
Method Course: Methods in Biophysics (Practical Course) [4 SWS]
C. Westerhausen, S. J. Thalhammer
Method Course: Magnetic and Superconducting Materials [2 SWS]
P. Gegenwart, V. Fritsch
Method Course: Magnetic and Superconducting Materials (Practical Course) [4 SWS]
P. Gegenwart, V. Fritsch
Method Course: Modern Solid State NMR Spectroscopy [2 SWS]
L. Wüllen
Method Course: Modern Solid State NMR Spectroscopy (Practical Course) [4 SWS]
L. Wüllen
Method Course: Infrared Microspectroscopy under Pressure [2 SWS]
C. Kuntscher
Method Course: Infrared Microspectroscopy under Pressure (Practical Course) [4 SWS]
C. Kuntscher

4 Materials Science - Elective Topic - Physics of Materials

Biophysics and Biomaterials [3 SWS]
S. J. Thalhammer, T. Franke, C. Westerhausen
Biophysics and Biomaterials (Tutorial) [1 SWS]
S. J. Thalhammer, T. Franke, C. Westerhausen
Dielectric and Optical Materials [4 SWS]
J. Deisenhofer, P. Lunkenheimer
Magnetism [3 SWS]
H.-A. Krug von Nidda, A. Jesche
Magnetism (Tutorial) [1 SWS]
H.-A. Krug von Nidda, A. Jesche
Physics and Technology of Semiconductor Devices [3 SWS]
H. Krenner
Physics and Technology of Semiconductor Devices (Tutorial) [1 SWS]
H. Krenner
Theoretical Concepts and Simulation [3 SWS]
L. Chioncel
Theoretical Concepts and Simulation (Project) [1 SWS]
L. Chioncel
Solid State Spectroscopy with Synchrotron Radiation and Neutrons [3 SWS]
C. Kuntscher
Solid State Spectroscopy with Synchrotron Radiation and Neutrons (Tutorial) [1 SWS]
C. Kuntscher
Ion-Solid Interaction [3 SWS]
H. Karl
Ion-Solid Interaction (Tutorial) [1 SWS]
H. Karl
Organic Semiconductors [3 SWS]
W. Brütting
Organic Semiconductors (Tutorial) [1 SWS]
W. Brütting
Spintronics [3 SWS]
G. Hammerl
Spintronics (Tutorial) [1 SWS]
G. Hammerl

4 Materials Science - Elective Topic - Chemistry of Materials

Chemical Physics II [3 SWS]
G. Eickerling
Chemical Physics II (Tutorial) [1 SWS]
G. Eickerling
Coordination Materials [3 SWS]
H. Bunzen
Coordination Materials (Tutorial) [1 SWS]
H. Bunzen
Advanced Solid State Materials [4 SWS]
H. Höppe
Novel Methods in Solid State NMR Spectroscopy [3 SWS]
L. Wüllen
Novel Methods in Solid State NMR Tutorial [1 SWS]
L. Wüllen

4 Materials Science - Elective Topic - Engineering of Materials

Characterization of Composite Materials [3 SWS]
M. Sause
Characterization of Composite Materials (Tutorial) [1 SWS]
M. Sause
Functional Polymers [3 SWS]
K. Ruhland
Functional Polymers (Tutorial) [1 SWS]
K. Ruhland
Modern Metallic Materials [4 SWS]
F. Haider
Electronics for Physicists and Materials Scientists [4 SWS]
A. Hörner
Carbon-based functional Materials (Carboterials) [4 SWS]
D. Volkmer, M. Albrecht, W. Brütting, F. Haider, S. Horn, H. Krenner, S. Krohns, C. Kuntscher, P. Lunkenheimer, K. Ruhland, W. Scherer, M. Schreck, A. Wixforth, L. Wüllen
Surfaces and Interfaces II: Joining processes [3 SWS]
J. Moosburger-Will, A. Ullrich
Übung zu Surfaces and Interfaces II: Joining processes [1 SWS]
J. Moosburger-Will