High- resolution NMR techniques in organic chemistry/ 
Claridge, Timothy D.W. 
 - Amsterdam:  Pergamon,  1999. 
 - 382 p. 
<br/><br/>	Front Cover --<br/>High-Resolution NMR Techniques in Organic Chemistry --<br/>Copyright Page --<br/>Table of Contents --<br/>Preface to Second Edition --<br/>Preface to First Edition --<br/>Chapter 1. Introduction --<br/>1.1. The development of high-resolution NMR --<br/>1.2. Modern high-resolution NMR and this book --<br/>1.3. Applying modern NMR techniques --<br/>References --<br/>Chapter 2. Introducing high-resolution NMR --<br/>2.1. Nuclear spin and resonance --<br/>2.2. The vector model of NMR --<br/>2.3. Time and frequency domains --<br/>2.4. Spin relaxation --<br/>2.5. Mechanisms for relaxation --<br/>References. Chapter 3. Practical aspects of high-resolution NMR --<br/>3.1. An overview of the NMR spectrometer --<br/>3.2. Data acquisition and processing --<br/>3.3. Preparing the sample --<br/>3.4. Preparing the spectrometer --<br/>3.5. Spectrometer calibrations --<br/>3.6. Spectrometer performance tests --<br/>References --<br/>Chapter 4. One-dimensional techniques --<br/>4.1. The single-pulse experiment --<br/>4.2. Spin decoupling methods --<br/>4.3. Spectrum editing with spin-echoes --<br/>4.4. Sensitivity enhancement and spectrum editing --<br/>4.5. Observing quadrupolar nuclei --<br/>References. Chapter 5. Correlations through the chemical bond I: Homonuclear shift correlation --<br/>5.1. Introducing two-dimensional methods --<br/>5.2. Correlation spectroscopy (COSY) --<br/>5.3. Practical aspects of 2D NMR --<br/>5.4. Coherence and coherence transfer --<br/>5.5. Gradient-selected spectroscopy --<br/>5.6. Alternative COSY sequences --<br/>5.7. Total correlation spectroscopy (TOCSY) --<br/>5.8. Correlating dilute spins with INADEQUATE --<br/>5.9. Correlating dilute spins with ADEQUATE --<br/>References --<br/>Chapter 6. Correlations through the chemical bond II: Heteronuclear shift correlation --<br/>6.1. Introduction. 6.2. Sensitivity --<br/>6.3. Heteronuclear single-bond correlation spectroscopy --<br/>6.4. Heteronuclear multiple-bond correlation spectroscopy --<br/>6.5. Heteronuclear X-detected correlation spectroscopy --<br/>6.6. Heteronuclear X-Y correlations --<br/>References --<br/>Chapter 7. Separating shifts and couplings: J-resolved spectroscopy --<br/>7.1. Introduction --<br/>7.2. Heteronuclear J-resolved spectroscopy --<br/>7.3. Homonuclear J-resolved spectroscopy --<br/>7.4. 'Indirect' homonuclear J-resolved spectroscopy --<br/>References --<br/>Chapter 8. Correlations through space: The nuclear Overhauser effect --<br/>8.1. Introduction. 8.2. Definition of the NOE --<br/>8.3. Steady-state NOEs --<br/>8.4. Transient NOEs --<br/>8.5. Rotating-frame NOEs --<br/>8.6. Measuring steady-state NOEs: NOE Difference --<br/>8.7. Measuring transient NOEs: NOESY --<br/>8.8. Measuring rotating-frame NOEs: ROESY --<br/>8.9. Measuring heteronuclear NOEs --<br/>8.10. Experimental considerations --<br/>References --<br/>Chapter 9. Diffusion NMR spectroscopy --<br/>9.1. Introduction --<br/>9.2. Measuring self-diffusion by NMR --<br/>9.3. Practical aspects of diffusion NMR spectroscopy --<br/>9.4. Applications of diffusion NMR spectroscopy --<br/>9.5. Hybrid diffusion sequences --<br/>References. 
<br/><br/><label>ISBN: </label>0080427995 
<br/><br/><label>Dewey Class. No.: </label>547  / CLA /