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Description
Applications of Nuclear Magnetic Resonance Spectroscopy in Organic Chemistry, Second Edition focuses on the applications of nuclear magnetic resonance spectroscopy to problems in organic chemistry and the theories involved in this kind of spectroscopy. The book first discusses the theory of nuclear magnetic resonance, including dynamic and magnetic properties of atomic nuclei, nuclear resonance, and relaxation process. The manuscript also examines the experimental method. Topics include experimental factors that influence resolution and the shapes of absorption lines; measurement of line positions and identification of the chemical shift; and measurement of intensities. The text reviews the theories of chemical effects in nuclear magnetic resonance spectroscopy and spin-spin multiplicity and the theory and applications of multiple irradiation. The book also tackles the theory of chemical shift, including the classification of shielding effects, local diamagnetic proton shielding, solvent effects, and contact shifts. The publication is a dependable source of data for readers interested in the applications of nuclear magnetic resonance spectroscopy.
Table of Contents
PART 1: An introduction to the theory and practice of nuclear magnetic resonance spectroscopyChapter 1: THEORY OF NUCLEAR MAGNETIC RESONANCEChapter 2: THE EXPERIMENTAL METHODPART 2: Theory of chemical effects in nuclear magnetic resonance spectroscopyChapter 3: TIME-DEPENDENT EFFECTS IN NUCLEAR MAGNETIC RESONANCE SPECTROSCOPYChapter 4: THEORY OF THE CHEMICAL SHIFTChapter 5: THEORY OF SPIN-SPIN MULTIPLICITYChapter 6: THEORY AND APPLICATIONS OF MULTIPLE IRRADIATIONPART 3: Applications of the chemical shiftChapter 7: GENERAL CONSIDERATIONSChapter 8: PROTONS BONDED TO NON-CYCLIC sp3 CARBON ATOMSChapter 9: PROTONS BONDED TO NON-AROMATIC sp2 CARBON ATOMSChapter 10: PROTONS BONDED TO sp CARBON ATOMSChapter 11: PROTONS BONDED TO sp3 CARBON ATOMS IN NON-AROMATIC CYCLIC STRUCTURESChapter 12: PROTONS BONDED TO AROMATIC AND HETEROCYCLIC CARBON ATOMSChapter 13: PROTONS BONDED TO ELEMENTS OTHER THAN CARBONChapter 14: STEREOCHEMISTRY AND THE CHEMICAL SHIFTChapter 15: CARBONIUM IONS, CARBANIONS AND RELATED SYSTEMSPART 4: Spin-spin couplingChapter 16: INTRODUCTION TO SPIN-SPIN COUPLINGChapter 17: GEMINAL INTERPROTON COUPLINGChapter 18: VICINAL INTERPROTON COUPLINGChapter 19: INTERPROTON COUPLING IN AROMATIC AND HETEROCYCLIC SYSTEMSChapter 20: LONG-RANGE INTERPROTON COUPLINGChapter 21: COUPLING BETWEEN PROTONS AND OTHER NUCLEI1803PART 5: Applications of time-dependent phenomenaChapter 22: INTRODUCTION TO APPLICATIONS OF TIME-DEPENDENT PHENOMENAChapter 23: GENERAL APPLICATIONSChapter 24: INTERNAL ROTATION AND EQUIVALENCE OF NUCLEIChapter 25: TAUTOMERISMREFERENCESINDEX
