High Resolution Nuclear Magnetic Resonance Spectroscopy

High Resolution Nuclear Magnetic Resonance Spectroscopy, Volume 2 provides a comprehensive coverage of the theories and methods for analysis of high resolution spectra. The title also presents a discourse on other variables that affect the spectra.
The text first details the correlations of 1H resonance spectral parameters with molecular structure, and then proceeds to tackling the 19F nuclear magnetic resonance studies. Next, the selection deals with the NMR spectra of nuclei other than hydrogen fluoride. The text also provides data sets, such as nuclear properties, T-values, and chemical shifts.
The book will be of great use to scientists who utilize nuclear magnetic resonance in their work.

Contenu

Foreword

Preface

10. Correlations of 1H Resonance Spectral Parameters with Molecular Structure

    Alkanes

    10.1 Chemical Shifts of Alkane Derivatives

    10.1.1 Correlation of Electronegativity of Substituents with 1H Chemical Shifts of Methyl Derivatives, CH3X

    10.1.2 Correlation of Chemical Shift Parameters with the Electronegativity of Substituents in Ethyl Derivatives

    10.1.3 Propyl and Isopropyl Derivatives

    10.1.4 Contributions to the Shielding of Hydrogen Nuclei from C-H and C-C Bond Anisotropic Effects

    10.2 Spin-Spin Coupling Constants in Alkane Derivatives

    10.2.1 Coupling Constants between Geminal Hydrogen Nuclei on Saturated Carbon Atoms

    10.2.2 Coupling Constants between Hydrogen Nuclei on Adjacent Carbon Atoms

    10.2.3 Signs of H-H Coupling Constants

    10.2.4 Long Range Coupling Constants between Hydrogen Cuclei in Saturated Systems

    10.3 Miscellaneous Alkyl Compounds

    10.3.1 Group IVB Methyl Derivatives

    10.3.2 Alkyl Derivatives of Elements having Nuclear Magnetic Moments

    10.3.3 Miscellaneous Metal Alkyl Derivatives

    10.3.4 2,3-Disubstituted Butanes

    10.3.5 Cyclopropane and Its Derivatives

    10.3.6 Cyclohexane Derivatives

    Alkenes

    10.4 Vinyl Derivatives, CH2=CHX

    10.4.1 Correlation between Geminal Coupling Constants, JGEM/HH, and the H-C-H Bond Angles

    10.4.2 Vicinal Coupling Constants in Alkenes

    10.4.3 Correlation between Coupling Constants and the Electronegativities of the Substituents in Vinyl Derivatives

    10.4.4 Changes in Chemical Shifts in Vinyl Groups with Changes in the Electronegativity of the Substituents

    10.4.5 Correlation of Chemical Shifts in Vinyl Systems with Hammett a-Constants

    10.4.6 Correlation of Chemical Shifts in Vinyl Systems with Group Dipole Moments

    10.4.7 Anomalous 1H Chemical Shifts in Vinyl Systems

    10.4.8 Vinyl Chloride and Chloroethylenes

    10.4.9 Propene-1, Butene-1 and Hexene-1

    10.4.10 Spin Coupling Constants in Alkene-1 Derivatives

    10.5 Disubstituted Olefines

    10.5.1 Cis- and Trans-Disubstituted Olefines

    10.5.2 2-Substituted Propenes

    10.5.3 2,3-Disubstituted Propenes

    10.5.4 The Effects of Methyl Group Substitution on the 1H Resonance Spectra of Ethylenic Molecules

    10.6 Trisubstituted Olefines

    10.6.1 1-Substituted Isobutenes

    10.6.2 aß-Unsaturated Esters

    10.7 Long Range Spin Coupling via Olefinic Systems

    10.8 Miscellaneous Olefines

    10.8.1 Conjugated Dienes

    10.8.2 Metal Alkene Derivatives

    10.8.3 Methyl Groups in Conjugated Polyenes

    10.8.4 Induced Ring Currents in Annulenes

    Acetylenes

    10.9 Acetylene and Related Molecules

    10.9.1 Propargyl Kalides, XCH2C=CH

    10.10 Spin-Spin Coupling Constants in Acetylenic Systems

    10.11 Solvent Effects on the Chemical Shifts of Hydrogen Nuclei in Acetylenic Molecules

    Aromatic Molecules

    10.12 Benzene Derivatives

    10.12.1 The Effects of Solvents on the Resonance Spectra of Aromatic Compounds

    10.12.2 Mono-substituted Benzenes

    10.12.3 Correlation of 1H Chemical Shifts in Mono-substituted Benzenes with Hammett s-Constants

    10.12.4 Disubstituted Benzene Derivatives

    10.12.5 Halogenated Benzene Derivatives

    10.12.6 Substituted Xylenes

    10.12.7 Hydroxy Benzenes

    10.12.8 Aromatic Alkoxy Compounds

    10.12.9 Aromatic Aldehydes

    10.12.10 Trisubstituted Benzenes

    10.12.11 Biphenyls

    10.12.12 Indene

    10.12.13 Aromatic Ring Currents

    10.13 Polynuclear Aromatic Molecules

    10.14 Spin-Spin Coupling in Aromatic Molecules

    10.15 Aromatic Ions

    10.15.1 Triaryl Carbonium Ions

    10.15.2 9,10-Dimethyl-1,2-Benzanthracene Carbonium Ion and Other Aromatic Carbonium Ions

    10.15.3 Azulinium Ion and Related Species

    10.15.4 Cyclopentadienyl Anion (C5H-5) and Tropylinium Cation (C7H+7)

    Heterocyclic Compounds

    10.16 Furan and Substituted Furans

    10.17 Pyrrole and Substituted Pyrroles

    10.17.1 Chemical Shifts in pyrroles 789

    10.17.2 Porphyrins

    10.17.3 Indoles

    10.18 Pyridine and Related Molecules

    10.19 The Effects of Solvents on the 1H Resonance Spectra of Unsaturated Heterocyclic Ring Compounds

    10.20 Quinolines

    10.21 Thiophene and Substituted Thiophenes

    10.22 Thiazoles and Methyl Substituted Thiazoles

    Large Complex Organic Molecules

    10.23 Alkaloids

    Lunacrine

    Limine

    10.24 Steroids

    10.25 Fatty Acids

    10.26 Amino Acids and Peptides

    10.27 Miscellaneous Studies

    10.28 Detection of C-Methyl Groups by NMR

    Hydrogen Atoms Attached to Atoms Other than Carbon

    10.29 Hydrogen Attached to Oxygen Atoms

    10.30 Hydrogen Attached to Nitrogen Atoms

    10.31 Hydrogen Attached to Boron Atoms

    10.32 Hydrogen Attached to Sulfur Atoms

    10.33 Hydrogen Attached to Silicon Atoms

    10.34 Hydrogen Attached to Germanium, Tin and Lead Atoms

    10.35 Hydrogen Attached to Transition Metal Atoms

    Miscellaneous Studies

    10.36 Contact Chemical Shifts in Paramagnetic Species

    10.37 NMR Studies of High Polymer Solutions

    10.37.1 Segmental Motion in Polymers

    10.37.2 The Use of NMR in Determining the Molecular Structures of Polymers

    10.37.3 Determination of the Stereochemical Configurations of Polymers by NMR 833

    10.37.4 The Use of Spin Decoupling in the Determination of Polymer Structures

    10.37.5 The Use of Deuteration in the Determination of Polymer Tacticities by NMR

    10.38 Empirical Estimation of Chemical Shifts

    10.39 Medium Effects in Liquids

    10.39.1 The Effects of Solvents on the Resonance Spectra of Acetylenic Molecules

    10.39.2 The Effects of Solvents on the Resonance Spectra of Aromatic Molecules

    10.39.3 The Effects of Solvents on the Resonance Spectra of Unsaturated Heterocyclic Ring Molecules

    10.40 Medium Effects in Gases

    11. 19F Nuclear Magnetic Resonance Studies

    11.1 Introduction

    11.2 Fluorine Chemical Shifts

    11.3 19F Spin-Spin Coupling Constants

    Effect of Temperature on Coupling Constants

    Long Range 19F Coupling Constants

    11.4 Binary Fluorides

    11.5 Halofluorohydrocarbons

    11.6 Substituted Fluoroalkanes

    11.6.1 Relative Signs of 19p Spin Coupling Constants in Fluoroalkanes

    11.6.2 NMR Parameters Obtained from Conformational Studies of Substituted Ethanes

    11.7 Fluorocarbon Compounds Containing Nitrogen

    11.8 Other Fluorocarbon Derivatives

    11.9 Perfluoroalkyl and Perfluoroacyl Metal Compound

    11.10 Fluorinated Aromatic Compounds

    11.10.1 19F Chemical Shifts of Benzene Derivatives

    11.10.2 Spin-Spin Interaction in Fluorinated Aromatic Compounds

    11.10.3 Substituted Benzotrifluorides

    11.10.4 Polysubstituted Fluorobenzene Derivatives

    11.10.5 Fluoronaphthalenes

    11.11 Fluoroalkenes

    11.11.1 Perfluorovinyl Derivatives

    11.11.2 Other Fluoroalkenes

    11.11.3 Coupling Constants in Fluoroalkenes

    11.11.4 Relative Signs of 19F Coupling Constants in Fluoroalkenes

    11.11.5 Information Obt…