Spectrometric identification of organic compound/ R. M. Silverstein Francis X. Webster and David J. Kiemle

By: Silverstein, R. MContributor(s): Webster, Francis X | Kiemle, David JMaterial type: TextTextPublication details: New Delhi: Wiley India, 2007Edition: 6th edDescription: 482 pSubject(s): Spectrum analysis | Nuclear physics -- Physicochemistry | Spectrometric and optical chemical analysis | Organic compoundsDDC classification: 547
Contents:
Chapter 1. Mass Spectrometry 1.1 Introduction.1.2 Instrumentation.1.3 Ionization Methods.1.4 Mass Analyzers.1.5 Interpretation of El Mass Spectra.1.6 Mass Spectra of Some Chemical Classes. Chapter 2. Infrared Spectrometry 2.1 Introduction.2.2 Theory.2.3 Instrumentation.2.4 Sample Handling.2.5 Interpretations of Spectra.2.6 Characteristic Group Absorption of Organic Molecules Chapter 3. Proton Magnetic Resonance Spectrometry 3.1 Introduction.3.2 Theory.3.3 Instrumentation and Sample Handling.3.4 Chemical Shift.3.5 Spin Coupling, Multiplets, Spin Systems.3.6 Protons on Oxygen, Nitrogen, and Sulfur Atoms. Exchangeable Protons.3.7 Coupling of Protons to Other Important Nuclei (<sup>19</sup>F, E, <sup>31</sup>P, <sup>29</sup>Si, and <sup>13</sup>C.3.8 Chemical Shift Equivalence.3.9 Magnetic Equivalence (Spin-Coupling Equivalence).3.10 AMX, ABX, and ABC Rigid Systems with Three Coupling Constants.3.11 Confirmationally Mobile, Open-Chain Systems. Virtual Coupling.3.12 Chirality.3.13 Vicinal and Geminal Coupling.3.14 Low-Range Coupling.3.15 Selective Spin Decoupling. Double Resonance.3.16 Nuclear Overhauser Effect, Difference Spectrometry, 1H 1H Proximity Through Space Chapter 4. Carbon-13 NMR Spectrometry 4.1 Introduction.4.2 Theory.4.3 Interpretation of a Simple <sup>13</sup>C Spectrum: Diethyl Phthalate.4.4 Quantitative <sup>13</sup>C Analysis.4.5 Chemical Shift Equivalence.4.6 DEPT.4.7 Chemical Classes and Chemical Shifts Chapter 5. Correlation NMR Spectrometry; 2-D NMR 5.1 Introduction.5.2 Theory.5.3 Correlation Spectrometry.5.4 Ipsenol: <sup>1</sup>H-<sup>1</sup>H COSY.5.5 Caryophyllene Oxide.5.6 <sup>13</sup>C-<sup>13</sup>C Correlations: Inadequate.5.7 Lactose.5.8 Relayed Coherence Transfer: TOCSY.5.9 HMQC TOCSY.5.10 ROESY.5.11 VGSE.5.12 Gradient Field NMR Chapter 6. NMR Spectrometry of Other Important Spin 1/2 Nuclei 6.1 Introduction.6.2 <sup>15</sup>N Nuclear Magnetic Resonance.6.3 <sup>19</sup>F Nuclear Magnetic Resonance.6.4 <sup>29</sup>Si Nuclear Magnetic Resonance.6.5 <sup>31</sup>P Nuclear Magnetic Resonance.6.6 Conclusion Chapter 7. Solved Problems 7.1 Introduction Chapter 8. Assigned Problems 8.1 Introduction
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Chapter 1. Mass Spectrometry
1.1 Introduction.1.2 Instrumentation.1.3 Ionization Methods.1.4 Mass Analyzers.1.5 Interpretation of El Mass Spectra.1.6 Mass Spectra of Some Chemical Classes.

Chapter 2. Infrared Spectrometry
2.1 Introduction.2.2 Theory.2.3 Instrumentation.2.4 Sample Handling.2.5 Interpretations of Spectra.2.6 Characteristic Group Absorption of Organic Molecules

Chapter 3. Proton Magnetic Resonance Spectrometry
3.1 Introduction.3.2 Theory.3.3 Instrumentation and Sample Handling.3.4 Chemical Shift.3.5 Spin Coupling, Multiplets, Spin Systems.3.6 Protons on Oxygen, Nitrogen, and Sulfur Atoms. Exchangeable Protons.3.7 Coupling of Protons to Other Important Nuclei (<sup>19</sup>F, E, <sup>31</sup>P, <sup>29</sup>Si, and <sup>13</sup>C.3.8 Chemical Shift Equivalence.3.9 Magnetic Equivalence (Spin-Coupling Equivalence).3.10 AMX, ABX, and ABC Rigid Systems with Three Coupling Constants.3.11 Confirmationally Mobile, Open-Chain Systems. Virtual Coupling.3.12 Chirality.3.13 Vicinal and Geminal Coupling.3.14 Low-Range Coupling.3.15 Selective Spin Decoupling. Double Resonance.3.16 Nuclear Overhauser Effect, Difference Spectrometry, 1H 1H Proximity Through Space

Chapter 4. Carbon-13 NMR Spectrometry
4.1 Introduction.4.2 Theory.4.3 Interpretation of a Simple <sup>13</sup>C Spectrum: Diethyl Phthalate.4.4 Quantitative <sup>13</sup>C Analysis.4.5 Chemical Shift Equivalence.4.6 DEPT.4.7 Chemical Classes and Chemical Shifts

Chapter 5. Correlation NMR Spectrometry; 2-D NMR
5.1 Introduction.5.2 Theory.5.3 Correlation Spectrometry.5.4 Ipsenol: <sup>1</sup>H-<sup>1</sup>H COSY.5.5 Caryophyllene Oxide.5.6 <sup>13</sup>C-<sup>13</sup>C Correlations: Inadequate.5.7 Lactose.5.8 Relayed Coherence Transfer: TOCSY.5.9 HMQC TOCSY.5.10 ROESY.5.11 VGSE.5.12 Gradient Field NMR

Chapter 6. NMR Spectrometry of Other Important Spin 1/2 Nuclei
6.1 Introduction.6.2 <sup>15</sup>N Nuclear Magnetic Resonance.6.3 <sup>19</sup>F Nuclear Magnetic Resonance.6.4 <sup>29</sup>Si Nuclear Magnetic Resonance.6.5 <sup>31</sup>P Nuclear Magnetic Resonance.6.6 Conclusion

Chapter 7. Solved Problems
7.1 Introduction

Chapter 8. Assigned Problems
8.1 Introduction


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