A new spectrometer generation offers new types of experiments: new methodology will be introduced, incorporated in new exercises, two typical examples will be interpreted in full details.
During the last few years, routine applications of NMR (Nuclear Magnetic Resonance) techniques have developed at a tremendous pace. The latest generation of spectrometers have enabled chemists to perform new types of experiments, such as spinlock and inverse-detected methods. This third, revised and expanded edition introduces the latest methodologies and incorporates them into new exercises.|During the last few years, routine applications of NMR techniques have been further developed. Spectrometers of the latest generation offer new types of experiments, such as spinlock and inverse-detected methods. In this third, revised and expanded edition, new methodology is introduced and incorporated into new exercises. In addition, a new chapter has been introduced which demonstrates the fully detailed interpretation of two typical examples.
1 Introduction.- 2 Methodology.- 3 Demonstration Examples.- 4 Exercises.- 5 Strategies.- 6 Solutions.- Explanation of Acronyms.- Compound Index.
nTwo years after publication of the first edition in four languages, the English version of this book is available in a second, revised and expanded edition. It is excellent for self-study by the practicing chemist and as a textbook for chemistry students taking courses or workshops in structure elucidation. Although the avantgarde in modern NMR is concentrating on the invention and optimization of advanced techniques, for beginners the situation has not changed markedly. Therefore, the authors decided to not add new techniques to this second edition, but rather to increase the number of exercises from 23 to 33. After rather simple, single-spectrum interpretations, the authors present additional spectrum problems based on the preceding exercises. In this way the user is guided step-by-step to the so lution of multi-spectra-problems.
Inhaltsverzeichnis
1 Introduction.- 2 Methodology.- 3 Demonstration Examples.- 4 Exercises.- 5 Strategies.- 6 Solutions.- Explanation of Acronyms.- Compound Index.
Klappentext
During the last few years, routine applications of NMR (Nuclear Magnetic Resonance) techniques have developed at a tremendous pace. The latest generation of spectrometers have enabled chemists to perform new types of experiments, such as spinlock and inverse-detected methods. This third, revised and expanded edition introduces the latest methodologies and incorporates them into new exercises.
A new spectrometer generation offers new types of experiments: new methodology will be introduced, incorporated in new exercises, two typical examples will be interpreted in full details.
Includes supplementary material: sn.pub/extras