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The aim of the course is to give an introduction to the basic theory and experimental aspects of solid-state NMR spectroscopy and to illustrate the applicability of the method in chemistry and materials science.
The course will describe fundamental spin interactions, experimental techniques, and instrumentation for NMR of powdered solids. These methods and the interpretation of solid-state NMR spectra will be demonstrated by structural and quantitative studies of selected organic and inorganic materials. For organic and metalorganic compounds this will mainly include experiments for spin-1/2 nuclei (e.g.,
1
H,
At the end of the course, the student should be able to
·
account
for the most important spin-interactions in solid-state NMR spectroscopy
·
describe
the principles of basic experimental methods in solid-state NMR spectroscopy
·
describe
the instrumental equipment used in solid-state NMR experiments
·
discuss
and analyse solid-state NMR spectra in relation to specific problems in chemistry
·
select
the most appropriate solid-state NMR experiments for specific problems in solid-state
chemistry
·
describe
the basic structures of the materials under investigation.
Passed the course Ak 6: Applied spectroscopy. The course is offered as a graduate course for Ph.d. students in chemistry.
Jørgen Skibsted, Henrik Bildsøe, Hans J. Jakobsen.
Lectures and experimental exercises. 4 hours per week.
Notes, parts of textbooks, and articles. To be announced at the beginning of the course.
Oral exam (30 min) with preparation (30 min). Grade in the Danish grading scale (the 7-point scale) based on the oral exam and the prescribed reports from the experimental exercises.