Synopses & Reviews
Nuclear magnetic resonance spectroscopy is an enormously powerful and versatile physical method for investigating the structure and dynamics of molecules. This text provides a clear, concise introduction to the physical principles of NMR, and the interactions that determine the appearance of NMR spectra. It describes and explains how nuclear spins interact with a magnetic field (the chemical shift) and with each other (spin-spin coupling); how NMR spectra are affected by chemical equilibria (exchange) and molecular motion (relaxation); and concludes with an outline of the workings of some simple one- and two-dimensional Fourier transform NMR experiments. The ways in which NMR may be used to study the structures, motions and reactions of molecules are illustrated and discussed. Only essential mathematics and theory are presented. The emphasis throughout is on understanding the basic principles.
Review
"The author has succeeded in compressing into a small space clear explanations leading the reader from the level of elementary principles up to reasonably advanced methods and applications."--Journal of Magnetic Resonance
Description
Includes bibliographical references (p. [88]) and index.
Table of Contents
1. Introduction
2. Chemical shifts
3. Spin-spin coupling
4. Chemical exchange
5. Spin relaxation
6. Experimental methods
Bibliography
Index