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More About This Title LC-NMR and Other Hyphenated NMR Techniques:Overview and Applications
English
English
Abbreviations, Symbols, and Units xv
1. Basic Concepts of NMR Spectroscopy 1
1.1 Introduction / 1
1.2 Basic Knowledge Regarding the Physics of NMR Spectroscopy / 2
1.3 Basic Parameters for NMR Interpretation / 7
1.3.1 Chemical Shift / 8
1.3.2 Spin–Spin Coupling Constants / 13
1.3.3 Spin Systems / 20
1.3.4 Signal Intensities / 21
1.3.5 Bond Correlations / 23
1.3.6 Spatial Correlations / 27
1.3.7 Other Topics / 30
1.4 Conclusions / 35
References / 36
2. Historical Development of NMR and LC-NMR 39
2.1 Introduction / 39
2.2 Historical Development of NMR / 39
2.3 Historical Development of LC-NMR / 46
2.4 Historical Development of Other Analytical Techniques Hyphenated with NMR / 49
2.5 Current Trends / 52
References / 52
3. Basic Technical Aspects and Operation of LC-NMR and LC-MS-NMR 59
3.1 Introduction / 59
3.2 Technical Considerations Regarding LC-NMR / 59
3.2.1 Solvent Compatibility / 60
3.2.2 Solvent Suppression / 61
3.2.3 NMR Flow Cell / 62
3.2.4 LC-NMR Sensitivity / 64
3.3 Technical Considerations Regarding LC-MS-NMR / 65
3.3.1 Deuterated Solvents / 66
3.4 Modes of Operation of LC-NMR / 66
3.4.1 On-Flow Mode / 67
3.4.2 Stop-Flow Mode / 67
3.4.3 Time-Sliced Mode / 77
3.4.4 Loop Collection Mode / 77
3.5 Modes of Operation of LC-MS-NMR / 77
3.5.1 On-Flow Mode / 80
3.5.2 Stop-Flow Mode / 87
3.6 Other Modes of Operation / 87
3.7 Challenging Considerations / 89
3.7.1 Air Bubbles / 89
3.7.2 Carryover with and Without an Autosampler / 90
3.7.3 Sample Solubility and Precipitation / 90
3.7.4 Flow Cell and System Cleaning / 91
3.7.5 Flow Rate and Magnetic Susceptibility / 91
3.7.6 Quantitation / 92
3.8 Conclusions / 92
References / 93
4. Applications of LC-NMR 95
4.1 Introduction / 95
4.2 Applications of LC-NMR / 96
4.2.1 Natural Products / 96
4.2.2 Drug Metabolism / 102
4.2.3 Drug Discovery / 108
4.2.4 Impurity Characterization / 111
4.2.5 Degradation Products / 112
4.2.6 Food Analysis / 115
4.2.7 Polymers / 118
4.2.8 Metabolomics and Metabonomics / 118
4.2.9 Isomers, Tautomers, and Chiral Compounds / 119
4.2.10 Others Areas / 120
4.3 Conclusions and Future Trends / 120
References / 121
5. Applications of LC-MS-NMR 131
5.1 Introduction / 131
5.2 Applications of LC-MS-NMR / 132
5.2.1 Natural Products / 132
5.2.2 Drug Metabolism / 134
5.2.3 Drug Discovery and Development / 135
5.2.4 Metabolomics and Metabonomics / 136
5.2.5 Others Areas / 139
5.3 Conclusions and Future Trends / 139
References / 140
6. Hyphenation of NMR with Other Analytical Separation Techniques 143
6.1 Introduction / 143
6.2 GC-NMR / 144
6.3 GPC-NMR / 144
6.4 SEC-NMR / 145
6.5 SFC-NMR / 146
6.6 SFE-NMR / 147
6.7 CE-NMR / 147
6.8 CEC-NMR / 149
6.9 CZE-NMR / 150
6.10 cITP-NMR / 150
6.11 CapLC-NMR / 152
6.12 SPE-NMR / 154
6.13 SPE-MS-NMR / 159
6.14 Conclusions and Future Trends / 167
References / 168
7. Special Topics and Applications Related to LC-NMR 179
7.1 Introduction / 179
7.2 Off-Line Versus Online NMR for Structural Elucidation / 180
7.2.1 Cases Solved Off-Line / 180
7.2.2 Cases Solved Online / 186
7.3 Analysis of Chiral Molecules by NMR / 188
7.3.1 Classical Approach: Off-Line / 189
7.3.2 Nonclassical Approach: Online / 190
7.4 Monitoring Chemical Reactions In Situ / 190
7.4.1 Classical Approach: Off-Line / 191
7.4.2 Nonclassical Approach: Online / 194
7.5 Analysis of Mixtures Off-Line, Online, and by Other NMR Methodologies / 196
7.5.1 Traditional Analysis of Mixtures by Off-Line HPLC and NMR / 196
7.5.2 Online NMR Analysis of Mixtures / 203
7.5.3 Other NMR Methodologies That Mimic LC-NMR Separation / 208
7.6 Current Trends / 210
References / 211
Index 217
