Nuclear magnetic resonsance (NMR) spectrocopy is the most powerful research tool used in chemistry today, but many chemists have yet to realize its true potential. Recent advances in NMR have led to a formidable array of new techniques - and acronyms - which leaves even the professional spectroscopist bewildered. How, then, can chemists decide ...
Nuclear magnetic resonance techniques have advanced dramatically in recent years, and are now more powerful and more versatile than ever before. To exploit these techniques efficiently, the chemist must have both an understanding of their theoretical basis and the ability to interpret the spectra accurately. The new edition of this established ...
This workbook aims to develop the ability to interpret NMR spectra to an advanced level by a combination of worked examples and set problems that cover one-dimensional and two-dimensional techniques applied to organic and inorganic systems. It can be used in concert with the author's main text, "Modern NMR Spectroscopy - A Guide for Chemists", ...
This book provides a nonmathematical, descriptive approach to modern nuclear magnetic resonance spectroscopy, using examples from organic, inorganic, and biological chemistry to help chemists decide which NMR technique will solve their particular structural or mechanistic problem. The authors offer practical advice about the acquisition and use of ...
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