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Ivano Bertini, Claudio Luchinat, Giacomo Parigi, Enrico Ravera
(Beteiligte)
NMR of Paramagnetic Molecules
Applications to Metallobiomolecules and Models
Mitarbeit: Bertini, Ivano; Luchinat, Claudio; Parigi, Giacomo; Ravera, Enrico
2nd ed. 2016. 508 p. 23,5 cm
Verlag/Jahr: ELSEVIER SCIENCE 2016
ISBN: 0-444-20529-2 (0444205292) / 0-444-63436-3 (0444634363)
Neue ISBN: 978-0-444-20529-2 (9780444205292) / 978-0-444-63436-8 (9780444634368)
Preis und Lieferzeit: Bitte klicken
NMR of Paramagnetic Molecules: Applications to Metallobiomolecules and Models, Second Edition is a self-contained, comprehensive reference for chemists, physicists, and life scientists whose research involves analyzing paramagnetic compounds. Since the previous edition of this book was published, there have been many advancements in the field of paramagnetic NMR spectroscopy. This completely updated and expanded edition contains the latest fundamental theory and methods for mastery of this analytical technique. Users will learn how to interpret the NMR spectra of paramagnetic molecules, improve experimental techniques, and strengthen their understanding of the underlying theory and applications.
Reflects all advances in the field in a completely updated new edition
Presents new material on self-orientation residual dipolar couplings, solid state NMR, dynamic nuclear polarization, and paramagnetic restraints for structure calculations
Includes information relevant to paramagnetic molecules, metallobiomolecules, paramagnetic compounds, and paramagnetic NMR spectroscopy
Presents specific examples of paramagnetic inorganic species and experimental techniques for structure characterization
1. Introduction 2. The hyperfine shift 3. The effect of partial orientation: residual dipolar couplings 4. Relaxation 5. High resolution solid-state NMR in paramagnetic molecules 6. Chemical exchange, chemical equilibria, and dynamics 7. Transition metal ions: shift and relaxation 8. Lanthanoids and actinoids: shift and relaxation 9. Paramagnetic restraints for structure and dynamics of biomolecules 10. Relaxometry and contrast agents for MRI 11. Magnetic coupled systems 12. Hints on experimental techniques