Introduction to spectroscopy/
Donald L. Pavia, Gary M. Lampman, George S. Kriz, James R. Vyvyan.
- 4th ed.
- New York: Cengage Learning, 2009.
- xv, 656 p. 26 cm.
1. Molecular Formulas and What Can Be Learned from Them.2. Infrared Spectroscopy.3. Nuclear Magnetic Resonance Spectroscopy Part One: Basic Concepts.4. Nuclear Magnetic Resonance Spectroscopy Part Two: Carbon-13 Spectra, Including Heteronuclear Coupling with Other Nuclei.5. Nuclear Magnetic Resonance Spectroscopy Part Three: Spin-Spin Coupling.6. Nuclear Magnetic Resonance Spectroscopy Part Four: Other Topics in One-Dimensional NMR.7. Ultraviolet Spectroscopy.8. Mass Spectrometry.9. Combined Structure Problems.10. Nuclear Magnetic Resonance Spectroscopy Part Five: Advanced NMR Techniques.Answers to Selected Problems.Appendix 1: Infrared Absorption Frequencies of Functional Groups.Appendix 2: Some Representative Chemical Shift Values for Various Types of Protons.Appendix 3: Typical Proton Coupling Constants.Appendix 4: Calculation of Proton (1H) Chemical Shifts.Appendix 5: Calculation of Carbon-13 Chemical Shifts.Appendix 6: 13C Coupling Constants.Appendix 7: Tables of Precise Masses and Isotopic Abundance Ratios for Molecular Ions Under Mass 100 Containing Carbon, Hydrogen, Nitrogen, and Oxygen.Appendix 8: Common Fragment Ions Under Mass 105.Appendix 9: Handy-Dandy Guide to Mass Spectral Fragmentation Patterns.Appendix 10: Index of Spectra.