Courses
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Elective Module 1: Analytical Chemistry A (7.5 ECTS-Credits, 6 h)
Prerequisites for registration: none
Learning Outcome: Students of this module gain a profound knowledge of all current methods of analysis. They acquire the skill to independently apply this knowledge for solving real problems, taking into account the strengths and limitations of the applicability of the respective methods.
Elective Module 2: Analytical Chemistry B (5 ECTS-Credits, 5 h)
(no courses)
Prerequisites for registration: none
Learning Outcome: Students are able to select tailored methods of analysis for specific problems and evaluate and interpret the results.
Elective Module 3: Inorganic Chemistry A (7.5 ECTS-Credits, 5 h)
(no courses)
Prerequisites for registration: none
Learning Outcome: Students gain advanced knowledge and competences in inorganic chemistry in special consideration of actual application of inorganic functional materials in technology and industry. Students understand the manifold relations between structure and characteristics of inorganic materials.
Elective Module 4: Inorganic Chemistry B (5 ECTS-Credits, 5 h)
Prerequisites for registration: none
Learning Outcome: Students are able to design location, function and characteristics of molecular compounds and solid bodies by application of the wide range of methods of synthesis of inorganic chemistry in an application-orientated fashion.
Elective Module 5: Biochemistry (12.5 ECTS-Credits, 10 h)
Prerequisites for registration: none
Learning Outcome: Students acquire in-depth knowledge of objects and methods in research in biochemis-try and genetic engineering. Main focus is on in-depth study of chemical and biological characteristics of nucleic acids and proteins, the most important biomolecules in relation to the flow of the genetic information. Knowledge for applying methods of biochemis-try and genetic engineering for issues in medicine are also imparted, especially on the molecular basics of physiological and pathophysiological processes and the application of structure-biological approaches for determining the functioning of biomolecules.
Elective Module 6: Organic Chemistry A (7.5 ECTS-Credits, 5 h)
Prerequisites for registration: none
Learning Outcome: Students acquire advanced knowledge and skills in organic chemistry in special consideration of actual application of modern organic synthesis, bioorganic chemistry and other organic-chemical approaches for molecular, biological problems. Independent dealing with current research fields of organic chemistry, perfecting of the presentation technique.
Elective Module 7: Organic Chemistry B (5 ECTS-Credits, 5 h)
(no courses)
Prerequisites for registration: none
Learning Outcome: Students are able to make experiments independently. They are able to deal with practical issues as well as with complex problems and questions of basic research.
Elective Module 8: Physical Chemistry (12.5 ECTS-Credits, 10 h)
Prerequisites for registration: none
Learning Outcome: Students understand the interrelations between solid body structure, possible stimuli for this structure and the macroscopic material properties. They are able to describe com-plex reactions of real processes and explain the microscopic fundamentals. Students are able to present the most important processes of atmospheric and environmental chemis-try. They independently deal with current research fields in physical chemistry relevant for society and perfect their presentation technique. Students carry out experimental work on application-orientated, complex problems independently. They calculate func-tional thin layer systems, different deposition techniques and check the material proper-ties of the product made by them.
Elective Module 9: Theoretical Chemistry (12.5 ECTS-Credits, 10 h)
Prerequisites for registration: none
Learning Outcome: Students are able to apply computational chemical methods for modelling molecules and materials. They use classic forces and forces of quantum-mechanics for describing dynamic processes and for predicting thermodynamic properties. Based on examples of scientific practice, they apply MC and MD methods, advanced calculation methods of quantum mechanics as well as methods dealt with in the lectures. The students acquire theoretical and practical knowledge of the application of modern technologies in DNA, RNA and protein sequence analysis, the prediction of protein and nucleic acid struc-tures and the prediction of biomolecular dynamics.
Notes:
- There may still be changes in the courses offered as well as room allocation and course dates.
- The course descriptions found in the English version of the course catalogue are for informational purposes only. Authoritative information can be found in the "Vorlesungsverzeichnis" (German version of the course catalogue).