Understanding NMR Spectroscopy
1st Edition
Published on 7. October 2005
Book
Paperback/Softback
476 pages
978-0-470-01787-6 (ISBN)
Description
Understanding NMR Spectroscopy
James Keeler Department of Chemistry, University of Cambridge, UK
This text discusses the high-resolution NMR of liquid samples and concentrates exclusively on spin-half nuclei (mainly 1H and 13C). It is aimed at people who are familiar with the use of routine NMR for structure determination and who wish to deepen their understanding of just exactly how NMR experiments work. It demonstrates that in NMR it is possible, quite literally on the back of an envelope, to make exact predictions of the outcome of quite sophisticated experiments. The experiments chosen are likely to be encountered in the routine NMR of small to medium-sized molecules, but are also applicable to the study of large biomolecules, such as proteins and nucleic acids.
The book starts off at a gentle pace, working through some more-or-less familiar ideas, and then elaborating these as the book progresses. Each chapter ends with exercises which are designed to assist in the understanding of the ideas presented and to grasp the underlying ideas.
James Keeler Department of Chemistry, University of Cambridge, UK
This text discusses the high-resolution NMR of liquid samples and concentrates exclusively on spin-half nuclei (mainly 1H and 13C). It is aimed at people who are familiar with the use of routine NMR for structure determination and who wish to deepen their understanding of just exactly how NMR experiments work. It demonstrates that in NMR it is possible, quite literally on the back of an envelope, to make exact predictions of the outcome of quite sophisticated experiments. The experiments chosen are likely to be encountered in the routine NMR of small to medium-sized molecules, but are also applicable to the study of large biomolecules, such as proteins and nucleic acids.
The book starts off at a gentle pace, working through some more-or-less familiar ideas, and then elaborating these as the book progresses. Each chapter ends with exercises which are designed to assist in the understanding of the ideas presented and to grasp the underlying ideas.
Reviews / Votes
"The writing is quite clear and very well illustrated." (CHOICE, June 2006) "Throughout, its goal is clear and concise explanation (Chemistry & Industry, 20th March 2006) "Such attention to detail and clarity is one of the greatest strengths of this excellent book...I would highly recommend..." (Chemistry World- 1st August 2006)More details
Edition
1., Auflage
Language
English
Place of publication
Chichester
United Kingdom
Publishing group
John Wiley and Sons Ltd
Target group
Professional and scholarly
Illustrations
Illustrations
Dimensions
Height: 24.6 cm
Width: 19.2 cm
Weight
1034 gr
ISBN-13
978-0-470-01787-6 (9780470017876)
Schweitzer Classification
Other editions
New editions
Person
Dr James Keeler is responsible for undergraduate studies in chemistry and related subjects at the University of Cambridge. He is an active research in the development of new methodologies in NMR and is Editor-in-Chief of Magnetic Resonance in Chemistry.
Content
1. What this book is about and who should read it.
2. Setting the scene.
3. Energy levels and NMR spectra.
4. The vector model.
5. Fourier transformation and data processing.
6. The quantum mechanics of one spin.
7. Product operators.
8. Two-dimensional NMR.
9. Relaxation and the NOE.
10. Advanced topics in tow-dimensional NMR.
11. Coherence selection: phase cycling and field gradient pulses.
12. How the spectrometer works.
Appendix: Some mathematical topics.
Index.
2. Setting the scene.
3. Energy levels and NMR spectra.
4. The vector model.
5. Fourier transformation and data processing.
6. The quantum mechanics of one spin.
7. Product operators.
8. Two-dimensional NMR.
9. Relaxation and the NOE.
10. Advanced topics in tow-dimensional NMR.
11. Coherence selection: phase cycling and field gradient pulses.
12. How the spectrometer works.
Appendix: Some mathematical topics.
Index.