CH-601(x) / 2 credits

Teacher(s): Abriata Luciano Andres, Bornet Aurélien, Emsley David Lyndon, Patiny Luc, Piveteau Laura

Language: English

Remark: Next time Winter 25 (block)


Frequency

Every year

Summary

Basic theoretical and experimental aspects of NMR will be taught. Students will be familarized with modern NMR spectrometers.

Content

Basic theoretical and experimental aspects of NMR will be taught. Students will be familarized with modern NMR spectrometers (shimming, locking, tuning, pulse length determination etc). Furthermore they will learn basic NMR experiments: 1H and 13C NMR, different decoupling schemes, relaxation measurements, spin echo techniques, coherence transfer experiments (INEPT), etc. NMR of quadrupolar nuclei and of nuclei with low sensitivity will be treated.

The primary intention is to teach PhD students and post-docs so that they can benefit from the NMR spectrometers available at EPFL, and to give them a sound foundation in NMR for various applications in organic and inorganic chemistry. PhD students and post-docs who have followed the course successfully should be able to perform standard NMR experiments independently. They should also be able to help colleagues in various research groups who wish to use NMR.
Passing the theoretical and practical exams will give 2 credits to PhD students.

Learning Prerequisites

Recommended courses

Advanced nuclear magnetic resonance,CH-401 Prof L. Emsley or similar.

Assessment methods

2021: oral exam via Zoom

In the programs

  • Number of places: 12
  • Exam form: Oral (session free)
  • Subject examined: Basic and advanced NMR - Level 1 A (EPFL)
  • Lecture: 20 Hour(s)
  • Practical work: 23 Hour(s)
  • Type: optional

Reference week

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