1. NUCLEAR MAGNETIC RESONANCE SPECTROSCPY A guide for A level students KNOCKHARDY PUBLISHING

2. Before you start it would be helpful to… know the names and structures of organic functional groups find the structures of isomers given the molecular formula NMR SPECTROSCOPY

3. WHAT IS NMR AND WHAT DOES AN NMR SPECTRUM TELL YOU? Proton nuclear magnetic resonance spectroscopy provides... information about the hydrogen atoms in molecules It provides the information by... spinning a sample of the compound in a magnetic field hydrogen atoms in different environments respond differently to the field each different environment of hydrogen produces a signal in a different position the area under each peak / signal is proportional to the number of hydrogens signal can be split according to how many H’s are on adjacent atoms PREVIEW

4. NMR SPECTROSCOPY – ORIGIN OF SPECTRA All nuclei possess charge and mass. Those with either an odd mass number or an odd atomic number also possess spin. This means they have angular momentum.  h aligned with the field   aligned against the field ENERGY A nucleus without spin cannot be detected by nuclear magnetic resonance spectroscopy. A spinning nucleus such as 1 H behaves as a spinning charge and generates a magnetic field. It can be likened to a bar magnet. When it is placed in an externally applied field it can align with, or against, the field. The energy difference between the two states (  ) depends on the applied field.

5. The sample is spun round in the field of a large electromagnet and a radio-frequency (RF) field is applied. The magnetic field is increased and the excitation or “flipping” of nuclei from one orientation to another is detected as an induced voltage resulting from the absorption of energy from the RF field. An nmr spectrum is the plot of the induced voltage against the sweep of the field. The area under a peak is proportional to the number of nuclei “flipping” Not all hydrogen nuclei absorb energy at the same field strength at a given frequency; the field strength required depends on the environment of the hydrogen. By observing the field strength at which protons absorb energy, one can deduce something about the structure of a molecule. NMR SPECTROMETERS RADIOFREQUENCY OSCILLATOR THE BASIC ELEMENTS OF AN NMR SPECTROMETER

6. INTERPRETATION OF SPECTRA NMR spectra provide information about the structure of organic molecules from the... number of different signals in the spectrum position of the signals (chemical shift) intensity of the signals NMR SPECTROSCOPY

7. INTERPRETATION OF SPECTRA NMR spectra provide information about the structure of organic molecules from the... number of different signals in the spectrum position of the signals (chemical shift) intensity of the signals OBTAINING SPECTRA a liquid sample is placed in a tube which spins in a magnetic field solids are dissolved in solvents which won’t affect the spectrum - CCl 4, CDCl 3 TMS, tetramethylsilane, (CH 3 ) 4 Si, is added to provide a reference signal when the spectrum has been run, it can be integrated to find the relative peak areas spectrometers are now linked to computers to analyse data and store information NMR SPECTROSCOPY

8. non-toxic liquid - SAFE TO USE inert - DOESN’T REACT WITH COMPOUND BEING ANALYSED has a low boiling point - CAN BE DISTILLED OFF AND USED AGAIN all the hydrogen atoms are chemically equivalent - PRODUCES A SINGLE PEAK twelve hydrogens so it produces an intense peak - DON’T NEED TO USE MUCH signal is outside the range shown by most protons - WON’T OBSCURE MAIN SIGNALS given the chemical shift of  = 0 the position of all other signals is measured relative to TMS TETRAMETHYLSILANE - TMS The molecule contains four methyl groups attached to a silicon atom in a tetrahedral arrangement. All the hydrogen atoms are chemically equivalent. PROVIDES THE REFERENCE SIGNAL

9. LOW RESOLUTION - HIGH RESOLUTION LOW RESOLUTION SPECTRUM OF 1-BROMOPROPANE low resolution nmr gives 1 peak for each environmentally different group of protons high resolution gives more complex signals - doublets, triplets, quartets, multiplets the signal produced indicates the number of protons on adjacent carbon atoms

10. LOW RESOLUTION - HIGH RESOLUTION HIGH RESOLUTION SPECTRUM OF 1-BROMOPROPANE The broad peaks are split into sharper signals The splitting pattern depends on the number of hydrogen atoms on adjacent atoms low resolution nmr gives 1 peak for each environmentally different group of protons high resolution gives more complex signals - doublets, triplets, quartets, multiplets the signal produced indicates the number of protons on adjacent carbon atoms

11. the area under a signal is proportional to the number of hydrogen atoms present an integration device scans the area under the peaks lines on the spectrum show the relative abundance of each hydrogen type By measuring the distances between the integration lines one can work out the simple ratio between the various types of hydrogen. before integration after integration INTEGRATION NOTICE THAT THE O-H SIGNAL IS ONLY A SINGLET

12. INTEGRATION HOW TO WORK OUT THE SIMPLE RATIOS Measure how much each integration line rises as it goes of a set of signals Compare the relative values and work out the simple ratio between them In the above spectrum the rises are in the ratio... 1:2:3 IMPORTANT: It doesn’t provide the actual number of H’s in each environment, just the ratio Measure the distance between the top and bottom lines. Compare the heights from each signal and make them into a simple ratio.

13. CONTENTS Spectrum of 1-bromopropane 5 4 3 2 1 0  INTEGRATION Area ratio from relative heights of integration lines = 2 : 2 : 3 Carbon 13 Carbon 22 Carbon 32 123 2 2 3 TMS

14. WHAT IS IT! C 2 H 5 Br

15. WHAT IS IT! C 2 H 3 Br 3

16. WHAT IS IT! C 2 H 4 Br 2

17. WHAT IS IT! C 6 H 12

18. WHAT IS IT! C2H4O2C2H4O2

19. C4H8O2C4H8O2

20. C3H6OC3H6O

21. C3H6OC3H6O

22. C4H8OC4H8O

23. C 8 H 16 O 2

24. WHAT IS IT! C 11 H 16

25. WHAT IS IT! C 8 H 10

26. WHAT IS IT! C 8 H 10

27. WHAT IS IT! C 9 H 12

28. WHAT IS IT! C 6 H 10 O 3

29. WHAT IS IT! C 4 H 8 Br 2

30. WHAT ARE THEY! Compound 2,2-dimethylbutanal 3-methylbutanal 3-methylbutan-2-one pentan-2-one pentanal Spectrum triplet (1.05); quartet (2.47) doublet (1.02); singlet (2.13) heptet (2.22) includes... doublet (0.93); triplet (9.74) two singlets