1. NMR Service What equipment do we have? What can it do? How do you get to use it? Where can you find it? Other stuff you need to know.

2. What Equipment do we have? Bruker AC200 What can it do? Open-Access instrument with Sample Changer 1 H at 200MHz, 13 C at 50.3MHz 1 H, 13 C and DEPT, routine work only How do you get to use it? User operated - Very easy - 10min training No booking - first come, first served

3. What Equipment do we have? Bruker DPX400 What can it do? 1 H at 400MHz, 13 C at 100.6MHz, etc, etc… Multinuclear, 2D, Pulsed Field Gradients Variable Temperature, Non-routine work How do you get to use it? Operator instrument Job Request Forms Time is bookable

4. Where can you find it? Ground floor Spur building

5. Where can you find it? AC200 in G21 (left) DPX400 in G20 (right)

6. NMR Service Charges Your supervisor pays a real money fee for every NMR Job done. Each Job done on the AC200 costs £1. Each Job done on the DPX400 costs £1. The money pays for the running costs of the NMR service, e.g. cryogens, paper, repairs, etc.

7. NMR Service Charges You must tell me your Job Number or Account Code. If you don’t work in Chemistry you must also tell me your Cost Centre. Your supervisor has this information.

8. What else do you need to know? AC200 Training Done by me when you bring your first sample Takes about 10-15 minutes. NMR Work Request Form Required for all DPX400 work. Makes sure your work is not forgotten. You must provide a sample or make a booking. NMR Data Archive Everything is kept forever, so that you may reprint data yourself. How to Prepare NMR Samples Leaflet - PLEASE READ IT!

9. NMR Work Request Form Identifies you and your sample. Describes your sample (Quantity, structure, solvent, hazards). Outlines the work you want done, or the information you need from the spectra.

10. NMR Work Request Form

12. NMR Data Archive All data is archived and kept for ever so that you can do expansions and reprints for theses, papers and posters. Data is always available by FTP from our own server. It is stored in folders by years, months and finally by user. Each instrument has its own archive. Dozens of people use the NMR service, hundreds if you look back over the years. So that you should always be able to find your data, we enforce a strict data naming convention.

13. Data Naming Convention User Code Given to you when you register Three letters, or two letters and a number Nucleus Element symbol: H, C, B, P, etc Sample Code Up to four characters, your choice, A-Z, 0-9 No lower case (a-z) or punctuation marks Don’t include your initials, or ‘EXP’ or ‘RN’ Extension or ‘expno’ - experiment number Added by the system to indicate the type of work

14. Data Naming Convention AC200 File Name: aaabcccc.ddd

15. Data Naming Convention AC200 File Name: aaabcccc.ddd User Code

16. Data Naming Convention AC200 File Name: aaabcccc.ddd User Code Nucleus

17. Data Naming Convention AC200 File Name: aaabcccc.ddd User Code NucleusSample Code

18. Data Naming Convention AC200 File Name: aaabcccc.ddd User Code NucleusSample Code Extension ASBH456.001 (AC200) asbh456a 1 1 (DPX400)

19. NMR Data Archive Machine address:dava.eps.hw.ac.uk Login name: nmrftp Password: nmrftp Path: / - the top level

20. How to Prepare Samples for NMR In NMR, unlike other types of spectroscopy, the quality of the sample has a profound effect on the quality of the resulting spectrum. If you follow a few simple rules, the sample you prepare will give a spectrum in which useful information is not lost or obscured.

21. Use the Correct Quantity of Material For 1 H spectra of organic compounds (except polymers) the quantity of material required is about 5 to 25mg. 13 C is six thousand times less sensitive than 1 H. If you can dissolve about 0.2 to 0.3 millimole in 0.7ml, the spectrum will take no more than about half an hour to record on the AC200. On the DPX400, 0.1 millimole gives a fair 13 C spectrum after less than an hour.

22. Signal-to-Noise Ratio S/N S/N   NS S/N  m Where NS = number of scans, m = number of moles of sample

23. So How Long Will it Take? NSTimeRelative S/N 25615 min.1 1,0001 hr (over lunch)2 4,0004 hr (half day)4 16,00016 hr (overnight)8 64,00064 hr (all weekend)16 NS = number of scans for a standard 1 H-decoupled 13 C spectrum. For other experiments, compare relative times only.

24. Remove All Solid Particles Solid particles distort the magnetic field homogeneity because the magnetic susceptibility of a particle is different from that of the solution. You must remove solid particles from your samples. Filter ALL solutions into the NMR tube through a small plug of glass wool tightly packed into a Pasteur pipette.

25. Make Samples to the Correct Depth In the magnet, the main field direction is vertical, along the length of the sample. Each end of the sample causes a major distortion of the field homogeneity which is corrected using the spectrometer’s shim controls A partial correction is done for every sample, and takes a few minutes. A complete correction takes many hours using a high quality test sample. Your samples must be prepared so that they physically resemble the test sample so, after filtration, they must be made up to a similar depth. This must be between 5cm and 5.5cm, and requires about 0.6 to 0.7ml solvent. Shorter samples are very difficult to shim, and cause considerable delay in recording the spectrum. Samples that are too long are also difficult to shim and are a waste of costly solvent

26. B0B0

27. Clean your NMR Tubes! This cleaning device is cheap and easy to set up and use. Use pipecleaner for stubborn stains. Dry tubes with a blast of dry nitrogen or air. NEVER dry tubes in an oven - it doesn’t work and tubes may distort in the heat. Don’t forget to clean the tube caps too!

28. Damaged NMR Tubes

29. Mend Damaged NMR Tubes

30. Good Sample Containers

31. Bad Sample Containers

32. Things We Love To Hear! 1.It’s 100% pure, only one spot on TLC. 2.What exactly is broad-band decoupling / COSY / VT /etc? 3.Do you think you could get it to run me off a few integrals? 4.Well, it dissolved perfectly OK in the chloroform in the lab. 5.Could I book a few days for some VT work? 6.I don’t think I actually know what you mean by “overwrite”. 7.Don’t be silly, of course there’s a signal there. 8.What do you mean by an expansion? 9.Why have you changed the signal-to-noise ratio of this spectrum?

33. Things We Love To Hear! 10.The coupling from H1 to H2 is 4.93 Hz, but the coupling from H2 to H1 is only 4.20 Hz. 11.Oh, that’s the solvent is it? 12.You remember that sample you did for me, about two weeks ago? 13.Gosh, that did take a long time! Actually, I’ve got loads more of this stuff if you’d like it. 14.Could you plot this out as a DEPT please? 15.Could you do a DEPT for me on this 1 H spectrum, please? 16.I’d like a DEPT just over this small region here please.

34. And Finally... Dr Alan Boyd Room G20 a.s.f.boyd@hw.ac.uk Ext. 3214 0131-451 3214