Organic Structural Spectroscopy
Pearson Education Limited (Verlag)
978-1-292-03956-5 (ISBN)
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1-1 The Spectroscopic Approach to Structure Determination
1-2 Contributions of Different Forms of Spectroscopy
1-3 The Electromagnetic Spectrum
1-4 Molecular Weight and Molecular Formula
1-5 Structural Isomers and Stereoisomers
Problems
Part I NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
Chapter 2 Introduction
2-1 Magnetic Properties of Nuclei
2-2 The Chemical Shift
2-3 Excitation and Relaxation
2-4 Pulsed Experiments
2-5 The Coupling Constant
2-6 Quantification and Complex Splitting
2-7 Commonly Studied Nuclides
2-8 Dynamic Effects
2-9 Spectra of Solids
2-10 Experimental Methods
Problems
Tips on Solving NMR Problems
Bibliography
Chapter 3 The Chemical Shift
3-1 Factors That Influence Proton Shifts
3-2 Proton Chemical Shifts and Structure
3-3 Medium and Isotope Effects
3-4 Factors That Influence Carbon Shirts
3-5 Carbon Chemical Shifts and Structure
3-6 Tables of Chemical Shifts
Problems
Further Tips on Solving NMR Problems
Bibliography
Chapter 4 The Coupling Constant
4-1 First-Order Spectra
4-2 Chemical and Magnetic Equivalence
4-3 Signs and Mechanisms
4-4 Couplings over One Bond
4-5 Geminal Couplings
4-6 Vicinal Couplings
4-7 Long-Range Couplings
4-8 Spectral Analysis
4-9 Second-Order Spectra
4-10 Tables of Coupling Constants
Problems
Bibliography
Chapter 5 Further Topics in One-Dimensional NMR
5-1 Spin-Lattice and Spin-Spin Relaxation
5-2 Reactions on the NMR Time Scale
5-3 Multiple Resonance
5-4 The Nuclear Overhauser Effect
5-5 Spectral Editing
5-6 Sensitivity Enhancement
5-7 Carbon Connectivity
5-8 Phase Cycling, Composite Pulses, and Shaped Pulses
Problems
Bibliography
Chapter 6 Two-Dimensional NMR
6-1 Proton-Proton Correlation Through Coupling
6-2 Proton-Heteronucleus Correlation
6-3 Proton-Proton Correlation Through Space or Chemical Exchange
6-4 Carbon-Carbon Correlation
6-5 Higher Dimensions
6-6 Pulsed Field Gradients
6-7 Summary of Two-Dimensional Methods
Problems
Bibliography
Part II MASS SPECTROMETRY
Chapter 7 Instrumentation and Theory
7-1 Introduction
7-2 Ionization Methods
7-3 Mass Analysis
7-4 Sample Preparation
Chapter 8 Ion Activation and Fragmentation
8-1 Basic Principles
8-2 Methods and Energetics
8-3 Functional Groups
Chapter 9 Structural Analysis
9-1 Molecular Weights
9-2 Molecular Formula
9-3 Structures from Fragmentation Patterns
9-4 Polymers
Chapter 10 Quantitative Applications
10-1 Quantification of Analytes
10-2 Thermochemistry
Part III VIBRATIONAL SPECTROSCOPY
Chapter 11 Introduction
11-1 Introd
Chapter 1 Introduction
1-1 The Spectroscopic Approach to Structure Determination
1-2 Contributions of Different Forms of Spectroscopy
1-3 The Electromagnetic Spectrum
1-4 Molecular Weight and Molecular Formula
1-5 Structural Isomers and Stereoisomers
Problems
Part I NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
Chapter 2 Introduction
2-1 Magnetic Properties of Nuclei
2-2 The Chemical Shift
2-3 Excitation and Relaxation
2-4 Pulsed Experiments
2-5 The Coupling Constant
2-6 Quantification and Complex Splitting
2-7 Commonly Studied Nuclides
2-8 Dynamic Effects
2-9 Spectra of Solids
2-10 Experimental Methods
Problems
Tips on Solving NMR Problems
Bibliography
Chapter 3 The Chemical Shift
3-1 Factors That Influence Proton Shifts
3-2 Proton Chemical Shifts and Structure
3-3 Medium and Isotope Effects
3-4 Factors That Influence Carbon Shirts
3-5 Carbon Chemical Shifts and Structure
3-6 Tables of Chemical Shifts
Problems
Further Tips on Solving NMR Problems
Bibliography
Chapter 4 The Coupling Constant
4-1 First-Order Spectra
4-2 Chemical and Magnetic Equivalence
4-3 Signs and Mechanisms
4-4 Couplings over One Bond
4-5 Geminal Couplings
4-6 Vicinal Couplings
4-7 Long-Range Couplings
4-8 Spectral Analysis
4-9 Second-Order Spectra
4-10 Tables of Coupling Constants
Problems
Bibliography
Chapter 5 Further Topics in One-Dimensional NMR
5-1 Spin-Lattice and Spin-Spin Relaxation
5-2 Reactions on the NMR Time Scale
5-3 Multiple Resonance
5-4 The Nuclear Overhauser Effect
5-5 Spectral Editing
5-6 Sensitivity Enhancement
5-7 Carbon Connectivity
5-8 Phase Cycling, Composite Pulses, and Shaped Pulses
Problems
Bibliography
Chapter 6 Two-Dimensional NMR
6-1 Proton-Proton Correlation Through Coupling
6-2 Proton-Heteronucleus Correlation
6-3 Proton-Proton Correlation Through Space or Chemical Exchange
6-4 Carbon-Carbon Correlation
6-5 Higher Dimensions
6-6 Pulsed Field Gradients
6-7 Summary of Two-Dimensional Methods
Problems
Bibliography
Part II MASS SPECTROMETRY
Chapter 7 Instrumentation and Theory
7-1 Introduction
7-2 Ionization Methods
7-3 Mass Analysis
7-4 Sample Preparation
Chapter 8 Ion Activation and Fragmentation
8-1 Basic Principles
8-2 Methods and Energetics
8-3 Functional Groups
Chapter 9 Structural Analysis
9-1 Molecular Weights
9-2 Molecular Formula
9-3 Structures from Fragmentation Patterns
9-4 Polymers
Chapter 10 Quantitative Applications
10-1 Quantification of Analytes
10-2 Thermochemistry
Part III VIBRATIONAL SPECTROSCOPY
Chapter 11 Introduction
11-1 Introd
| Erscheint lt. Verlag | 1.11.2013 |
|---|---|
| Verlagsort | Harlow |
| Sprache | englisch |
| Maße | 216 x 275 mm |
| Gewicht | 974 g |
| Themenwelt | Naturwissenschaften ► Chemie ► Organische Chemie |
| ISBN-10 | 1-292-03956-6 / 1292039566 |
| ISBN-13 | 978-1-292-03956-5 / 9781292039565 |
| Zustand | Neuware |
| Informationen gemäß Produktsicherheitsverordnung (GPSR) | |
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