Suchergebnis: Katalogdaten im Frühjahrssemester 2019

Chemie Master Information
Master-Studium (Studienreglement 2018)
Wahlfächer
Anorganische Chemie
NummerTitelTypECTSUmfangDozierende
529-0134-01LFunctional InorganicsW6 KP3GM. Kovalenko, T. Lippert, Y. Romanyuk
KurzbeschreibungThis course will cover the synthesis, properties and applications of inorganic materials. In particular, the focus will be on photo-active coordination compounds, quasicrystals, nanocrystals (including nanowires), molecular precursors for inorganic materials and metal-organic frameworks.
LernzielUnderstanding the structure-property relationship and the design principles of modern inorganic materials for prospective applications in photovoltaics, electrochemical energy storage (e.g. Li-ion batteries), thermoelectrics and photochemical and photoelectrochemical water splitting.
Inhalt(A) Introduction into the synthesis and atomic structure of modern molecular and crystalline inorganic materials.
-Quasicrystals
-Nanocrystals, including shape engineering
-Molecular precursors (including organometallic and coordination compounds) for inorganic materials
-Metal-organic frameworks
-Photoactive molecules

(B) Applications of inorganic materials:
-photovoltaics
-Li-ion batteries
-Thermoelectrics
-Photochemical and photoelectrochemical water splitting
-Light-emitting devices etc.
Skriptwill be distributed during lectures
Literaturwill be suggested in the lecture notes
Voraussetzungen / BesonderesNo special knowledge beyond undergraduate curriculum
529-0144-01LNMR Spectroscopy in Inorganic ChemistryW6 KP3GR. Verel
KurzbeschreibungTheory and applications of NMR spectroscopy with a focus of its use to problems in Inorganic Chemistry.
The use of the Bloch Equations to describe broadband and selective excitation, measurement techniques and processing strategies of NMR data, applications of NMR to the study of molecular structure, chemical exchange processes, diffusion spectroscopy, and solid-state NMR techniques.
LernzielIn depth understanding of both practical and theoretical aspects of solution and solid-state NMR and its application to problems in Inorganic Chemistry
InhaltSelection of the following themes:
1. Bloch Equations and its use to understand broadband and selective pulses.
2. Measurement techniques and processing strategies of NMR data.
3. Applications of NMR to the study of molecular structure: Experiments and strategies to solve problems in Inorganic Chemistry.
4. Application of NMR to the study of chemical exchange processes.
5. Application of NMR to the study of self-diffusion and the determination of diffusion coefficients.
6. Differences and similarities between fundamental interactions in solution and solid-state NMR
7. Experimental techniques in solid-state NMR (Magic Angle Spinning, Cross Polarization, Decoupling and Recoupling Techniques, MQMAS)
8. The use of Dynamic Nuclear Polarization for the study of surfaces.
SkriptA handout is provided during the lectures. It is expected that the students will consult the accompanying literature as specified during the lecture.
LiteraturSpecified during the lecture
Voraussetzungen / Besonderes529-0432-00 Physikalische Chemie IV: Magnetische Resonanz
529-0058-00 Analytische Chemie II
(or equivalent)

The individual and in depth (literature) study of a theme related but separate from the themes presented during the lecture requires different compentences compared to the ones which are tested during the oral exam. Therefore the students must give a presentation during the semester about a theme based on their study of the literature. A list of possible themes and corresponding literature will be provided during the lecture.
The student presentation is a mandatory "pass/fail" element of the course and must be passed separately from the oral exam. If the presentation fails it will not be possible to pass the final exam. A renewed presentation is not required in case the oral exam has to be repeated.
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