NMR Spectroscopy I
Course, Master's level, 1KB469
Autumn 2024 Autumn 2024, Uppsala, 33%, On-campus, English
- Location
- Uppsala
- Pace of study
- 33%
- Teaching form
- On-campus
- Instructional time
- Daytime
- Study period
- 4 November 2024–19 January 2025
- Language of instruction
- English
- Entry requirements
-
120 credits with 60 credits in chemistry including 15 credits organic chemistry or 15 credits physical chemistry, alternatively 20 credits of organic and physical chemistry together. Proficiency in English equivalent to the Swedish upper secondary course English 6.
- Selection
-
Higher education credits in science and engineering (maximum 240 credits)
- Fees
-
If you are not a citizen of a European Union (EU) or European Economic Area (EEA) country, or Switzerland, you are required to pay application and tuition fees.
- First tuition fee instalment: SEK 12,083
- Total tuition fee: SEK 12,083
- Application deadline
- 15 April 2024
- Application code
- UU-16027
Admitted or on the waiting list?
- Registration period
- 14 October 2024–3 November 2024
- Information on registration from the department
Autumn 2024 Autumn 2024, Uppsala, 33%, On-campus, English For exchange students
- Location
- Uppsala
- Pace of study
- 33%
- Teaching form
- On-campus
- Instructional time
- Daytime
- Study period
- 4 November 2024–19 January 2025
- Language of instruction
- English
- Entry requirements
-
120 credits with 60 credits in chemistry including 15 credits organic chemistry or 15 credits physical chemistry, alternatively 20 credits of organic and physical chemistry together. Proficiency in English equivalent to the Swedish upper secondary course English 6.
Admitted or on the waiting list?
- Registration period
- 14 October 2024–3 November 2024
- Information on registration from the department
About the course
The course deals with the following aspects of NMR spectroscopy:
- Fundamentals of the NMR phenomenon, the relationship between NMR spectra and molecular structure. Recording of routine spectra (1H and 13C), essentials of data processing, e.g. weighting functions
- 1D NMR techniques: decoupling, DEPT, relaxation measurement, magnetisation transfer, NOE difference spectra
- 2D NMR techniques: Homo- and heteronuclear correlation (COSY, TOCY, HSQC, HMBC), measurement of the nuclear Overhauser effect (NOESY, ROESY)
The emphasis is on learning the practical use of NMR equipment.
Contact
- Chemistry education office
- kursexp@kemi.uu.se
- +46 18 471 37 10, +46 18 471 37 11