| Notes: | Description based on print version record.
Includes bibliographical references and index.
Machine generated contents note: 1. Basic Concepts on NMR Spectroscopy.1.1Introduction.1.2 Basic knowledge on the physics of NMR spectroscopy.1.3 Basic parameters for NMR interpretation.1.4 Conclusions.1.5 References.2. Historical development of NMR and LC-NMR.2.1 Introduction.2.2 Historical development of NMR.2.3 Historical development of LC-NMR.2.4 Historical development of other analytical techniques hyphenated with NMR.2.5 Current trends.2.6 References.3. Basic technical considerations and operations for LC-NMR and MC-MS-NMR.3.1 Introduction.3.2 Technical considerations for LC-NMR.3.3 Technical considerations for LC-MS-NMR.3.4 Mode of operations for LC-NMR.3.5 Mode of operation for LC-MS-NMR.3.6 Other modes of operation.3.7 Challenging considerations.3.8 Conclusions.3.9 References.4. Applications of LC-NMR.4.1 Introduction.4.2 Applications for LC-NMR.4.3 Conclusions and future trends.4.4 References.5. Applications of LC-MS-NMR.5.1 Introduction.5.2 Applications for LC-MS-NMR.5.3 Conclusions and future trends.5.4 References.6. Hyphenation of NMR with other analytical separation techniques.6.1 Introduction.6.2 GC-NMR.6.3 GPC-NMR.6.4 SEC-NMR.6.5 SFC-NMR.6.6 SFE-NMR.6.7 CE-NMR.6.8 CEC-NMR.6.9 CZE-NMR.6.10 cITP-NMR.6.11 CapLC-NMR.6.12 SPE-NMR.6.13 SPE-MS-NMR.6.14 Conclusions and future trends.6.15 References.7. Special topics and applications related to LC-NMR.7.1 Introduction.7.2 Off-line versus on-line NMR for structure elucidation.7.3 Analysis of chiral molecules by LC-NMR.7.4 Monitoring chemical reaction in situ.7.5 Analysis of mixtures off-line, on-line, and by other NMR methodologies.7.6 Current Trends.7.7 References. .
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