Nuclear Magnetic Resonance SpectroscopyNine chapters cover: fundamental principles; experimental methods; the chemical shift; coupling of nuclear spins; nuclear relaxation and chemical rate processes; two-dimensional nuclear magnetic resonance spectroscopy; macromolecules; NMR of solids; special topics. Annotation copyrighted by Book News, Inc., Portland, OR |
Contents
PREFACE Chapter I Fundamental Principles I Introduction | 1 |
The Nuclear Magnetic Resonance Phenomenon | 3 |
The Detection of the Resonance Phenomenon | 5 |
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A. A. Bothner-By AA'BB allylic anisotropy Appendix aromatic benzene ring broadening calculated carbonyl CCl4 CH3 CH3 Chapter Chem chemical shifts CO₂H coil Compound or structural conformers corresponding cyclohexane cyclopropane deshielding diamagnetic discussed double bond doublet effects electron electronegativity energy entries equivalent F. A. Bovey fluorine frequency geminal geminal couplings H H H H. S. Gutowsky H(ax H₁ H₂ isotactic J. A. Pople J. D. Roberts J/Av lines magnetic field magnetic moment Mc/sec meso methyl groups methylene molecular molecules multiplets Neat Nuclear Magnetic Resonance nuclei observed olefinic olefinic H ortho paramagnetic peak Phys plane Polymer Polymer Sci protons protons appear quartet relative signs ring currents sample Section shielding shown in Fig signal solution solvent spectra spectrum spin spin-lattice relaxation structural type substituents symmetry syndiotactic T₁ temperature trans triplet VAVB vicinal couplings Vx Vx z-axis value