Raymond Abraham, Mehdi Mobli
Modelling 1h NMR Spectra of Organic Compounds
Theory, Applications and NMR Prediction Software
Raymond Abraham, Mehdi Mobli
Modelling 1h NMR Spectra of Organic Compounds
Theory, Applications and NMR Prediction Software
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_ Provides a theoretical introduction to graduate scientists and industrial researchers towards the understanding of the assignment of 1H NMR spectra _ Discusses, and includes on enclosed CD, one of the best, the fastest and most applicable pieces of NMR prediction software available _ Allows students of organic chemistry to solve problems on 1H NMR with access to over 500 assigned spectra
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_ Provides a theoretical introduction to graduate scientists and industrial researchers towards the understanding of the assignment of 1H NMR spectra
_ Discusses, and includes on enclosed CD, one of the best, the fastest and most applicable pieces of NMR prediction software available
_ Allows students of organic chemistry to solve problems on 1H NMR with access to over 500 assigned spectra
_ Discusses, and includes on enclosed CD, one of the best, the fastest and most applicable pieces of NMR prediction software available
_ Allows students of organic chemistry to solve problems on 1H NMR with access to over 500 assigned spectra
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 392
- Erscheinungstermin: 15. Dezember 2008
- Englisch
- Abmessung: 249mm x 173mm x 25mm
- Gewicht: 830g
- ISBN-13: 9780470723012
- ISBN-10: 0470723017
- Artikelnr.: 25059634
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 392
- Erscheinungstermin: 15. Dezember 2008
- Englisch
- Abmessung: 249mm x 173mm x 25mm
- Gewicht: 830g
- ISBN-13: 9780470723012
- ISBN-10: 0470723017
- Artikelnr.: 25059634
Raymond Abraham was appointed lecturer in organic chemistry at the The University of Liverpool in 196. Since then he has remained at Liverpool, with two fellowships taken at the Mellon Institute and the University of Trondheim in 1966 and 1979 respectively, now holding the position of Emeritus Professor. His research interests include: Molecular modelling and Proton Chemical Shift Predictions; Non-bonded and Hydrogen bonding Interactions and Conformational Analysis; and Lanthanide Induced Shifts and Molecular Geometries. He has over 300 publications including three books and ten reviews. Mehdi Mobli is currently a post-doctoral research fellow at Manchester University, having completed his B.Sc in chemical engineering at Chalmers University of Technology in Sweden and his Ph.D. with Professor Abraham at The University of Liverpool. He has published 10 papers mainly in conjunction with Professor Abraham, all focused on the topic of this text.
Preface. Chapter 1: Introduction to 1H NMR. 1.1 Historical background. 1.2
Basic Theory. 1.3 The 1H chemical shift. 1.4. 1H Substituent chemical
shifts (SCS). 1.5 Long range effects on 1H chemical shifts. 1.6.Tables of
1H Chemical Shifts of Common Cyclic Systems. Chapter 2: Interpretation of
1H NMR coupling patterns. 2.1 Fine Structure due to HH coupling. 2.2 The
Analysis of NMR Spectra. 2.3. The Mechanism of Spin-Spin Coupling. 2.4. HF
Couplings. Chapter 3: Methods of Predicting 1H Chemical Shifts. 3.1.
Quantum mechanical calculations of 1H Chemical shifts. 3.2. The Data Base
Approach, the Hose code. 3.3. Semi-empirical calculations,. 3.4. Theory of
the CHARGE program,. Chapter 4: Modelling 1H Chemical Shifts,
Alkanes,Alkenes and Alkynes. 4.1. Alkanes. a) Acyclic alkanes. b) Cyclic
Alkanes. c) Methyl Cycloalkanes. d) Androstane. e) Chemical Shift
contributions in Cyclohexane. 4.2 Alkenes. a) Acyclic alkenes. b)
Monocyclic alkenes. c) Aromatic alkenes. d) Norbornenes and bicyclooctenes.
e) Pinenes. f) Conclusions. 4.3.Alkynes. 4.4. Summary. Chapter 5: MODELLING
1H CHEMICAL SHIFTS, Aromatics. 5.1 Aromatic Hydrocarbons. a) Condensed
aromatics. b) Cyclophanes. c)Substituted Benzenes. 5.2. Heteroaromatics. a)
Furans, thiophenes and pyrroles. b) Indoles,quinolines ans isoquinolines.
c) Diazabenzenes and azoles. 5.3. Summary. Chapter 6: MODELLING 1H CHEMICAL
SHIFTS, Mono valent Substituents. 6.1. Flourocompounds. 6.2.
Steric,Anisotropic and Electric Field Effects in Chloro,bromo and Iodo SCS.
6.3. Hydroxy Compounds. 6.4. Amines. 6.5. Cyanides. 6.6. Nitro Compounds.
6.7. Summary. Chapter 7: MODELLING 1H CHEMICAL SHIFTS, Divalent
Substituents. 7.1. Aldehydes and Ketones. a) Observed vs Calculated shifts.
a). Keto-enol tautomerism in anthrone. 7.2. Esters. 7.3 Amides. 7.4.
Ethers. 7.5. Sulfoxides, sulfones, sulphites. 7.6. Summary. Chapter 8: 1H
CHEMICAL SHIFTS AND STRUCTURAL CHEMISTRY. 8.1. Electronic Structure
Calculations. 8.2. Molecular Mechanics Calculations. 8.3. Molecular
Geometries and 1H Chemical Shifts. 8.4. Rate Processes and NMR Spectra.
8.5. Solvent Effects. 8.6. Summary. Chapter 9: Strategies for 1H NMR
prediction. 9.1. Calculating 1H NMR spectra. 9.2. Automated spectral
prediction, NMRPredict. Appendix 1. The observed vs calculated 1H NMR
chemical shifts of ca 1000 spectra. Appendix 2. The observed vs calculated
1H NMR chemical shifts of 113 Substituted Benzenes. Appendix 3. The
observed vs calculated 1H NMR chemical shifts of 65 Substituted Pyridines.
Basic Theory. 1.3 The 1H chemical shift. 1.4. 1H Substituent chemical
shifts (SCS). 1.5 Long range effects on 1H chemical shifts. 1.6.Tables of
1H Chemical Shifts of Common Cyclic Systems. Chapter 2: Interpretation of
1H NMR coupling patterns. 2.1 Fine Structure due to HH coupling. 2.2 The
Analysis of NMR Spectra. 2.3. The Mechanism of Spin-Spin Coupling. 2.4. HF
Couplings. Chapter 3: Methods of Predicting 1H Chemical Shifts. 3.1.
Quantum mechanical calculations of 1H Chemical shifts. 3.2. The Data Base
Approach, the Hose code. 3.3. Semi-empirical calculations,. 3.4. Theory of
the CHARGE program,. Chapter 4: Modelling 1H Chemical Shifts,
Alkanes,Alkenes and Alkynes. 4.1. Alkanes. a) Acyclic alkanes. b) Cyclic
Alkanes. c) Methyl Cycloalkanes. d) Androstane. e) Chemical Shift
contributions in Cyclohexane. 4.2 Alkenes. a) Acyclic alkenes. b)
Monocyclic alkenes. c) Aromatic alkenes. d) Norbornenes and bicyclooctenes.
e) Pinenes. f) Conclusions. 4.3.Alkynes. 4.4. Summary. Chapter 5: MODELLING
1H CHEMICAL SHIFTS, Aromatics. 5.1 Aromatic Hydrocarbons. a) Condensed
aromatics. b) Cyclophanes. c)Substituted Benzenes. 5.2. Heteroaromatics. a)
Furans, thiophenes and pyrroles. b) Indoles,quinolines ans isoquinolines.
c) Diazabenzenes and azoles. 5.3. Summary. Chapter 6: MODELLING 1H CHEMICAL
SHIFTS, Mono valent Substituents. 6.1. Flourocompounds. 6.2.
Steric,Anisotropic and Electric Field Effects in Chloro,bromo and Iodo SCS.
6.3. Hydroxy Compounds. 6.4. Amines. 6.5. Cyanides. 6.6. Nitro Compounds.
6.7. Summary. Chapter 7: MODELLING 1H CHEMICAL SHIFTS, Divalent
Substituents. 7.1. Aldehydes and Ketones. a) Observed vs Calculated shifts.
a). Keto-enol tautomerism in anthrone. 7.2. Esters. 7.3 Amides. 7.4.
Ethers. 7.5. Sulfoxides, sulfones, sulphites. 7.6. Summary. Chapter 8: 1H
CHEMICAL SHIFTS AND STRUCTURAL CHEMISTRY. 8.1. Electronic Structure
Calculations. 8.2. Molecular Mechanics Calculations. 8.3. Molecular
Geometries and 1H Chemical Shifts. 8.4. Rate Processes and NMR Spectra.
8.5. Solvent Effects. 8.6. Summary. Chapter 9: Strategies for 1H NMR
prediction. 9.1. Calculating 1H NMR spectra. 9.2. Automated spectral
prediction, NMRPredict. Appendix 1. The observed vs calculated 1H NMR
chemical shifts of ca 1000 spectra. Appendix 2. The observed vs calculated
1H NMR chemical shifts of 113 Substituted Benzenes. Appendix 3. The
observed vs calculated 1H NMR chemical shifts of 65 Substituted Pyridines.
Preface. Chapter 1: Introduction to 1H NMR. 1.1 Historical background. 1.2
Basic Theory. 1.3 The 1H chemical shift. 1.4. 1H Substituent chemical
shifts (SCS). 1.5 Long range effects on 1H chemical shifts. 1.6.Tables of
1H Chemical Shifts of Common Cyclic Systems. Chapter 2: Interpretation of
1H NMR coupling patterns. 2.1 Fine Structure due to HH coupling. 2.2 The
Analysis of NMR Spectra. 2.3. The Mechanism of Spin-Spin Coupling. 2.4. HF
Couplings. Chapter 3: Methods of Predicting 1H Chemical Shifts. 3.1.
Quantum mechanical calculations of 1H Chemical shifts. 3.2. The Data Base
Approach, the Hose code. 3.3. Semi-empirical calculations,. 3.4. Theory of
the CHARGE program,. Chapter 4: Modelling 1H Chemical Shifts,
Alkanes,Alkenes and Alkynes. 4.1. Alkanes. a) Acyclic alkanes. b) Cyclic
Alkanes. c) Methyl Cycloalkanes. d) Androstane. e) Chemical Shift
contributions in Cyclohexane. 4.2 Alkenes. a) Acyclic alkenes. b)
Monocyclic alkenes. c) Aromatic alkenes. d) Norbornenes and bicyclooctenes.
e) Pinenes. f) Conclusions. 4.3.Alkynes. 4.4. Summary. Chapter 5: MODELLING
1H CHEMICAL SHIFTS, Aromatics. 5.1 Aromatic Hydrocarbons. a) Condensed
aromatics. b) Cyclophanes. c)Substituted Benzenes. 5.2. Heteroaromatics. a)
Furans, thiophenes and pyrroles. b) Indoles,quinolines ans isoquinolines.
c) Diazabenzenes and azoles. 5.3. Summary. Chapter 6: MODELLING 1H CHEMICAL
SHIFTS, Mono valent Substituents. 6.1. Flourocompounds. 6.2.
Steric,Anisotropic and Electric Field Effects in Chloro,bromo and Iodo SCS.
6.3. Hydroxy Compounds. 6.4. Amines. 6.5. Cyanides. 6.6. Nitro Compounds.
6.7. Summary. Chapter 7: MODELLING 1H CHEMICAL SHIFTS, Divalent
Substituents. 7.1. Aldehydes and Ketones. a) Observed vs Calculated shifts.
a). Keto-enol tautomerism in anthrone. 7.2. Esters. 7.3 Amides. 7.4.
Ethers. 7.5. Sulfoxides, sulfones, sulphites. 7.6. Summary. Chapter 8: 1H
CHEMICAL SHIFTS AND STRUCTURAL CHEMISTRY. 8.1. Electronic Structure
Calculations. 8.2. Molecular Mechanics Calculations. 8.3. Molecular
Geometries and 1H Chemical Shifts. 8.4. Rate Processes and NMR Spectra.
8.5. Solvent Effects. 8.6. Summary. Chapter 9: Strategies for 1H NMR
prediction. 9.1. Calculating 1H NMR spectra. 9.2. Automated spectral
prediction, NMRPredict. Appendix 1. The observed vs calculated 1H NMR
chemical shifts of ca 1000 spectra. Appendix 2. The observed vs calculated
1H NMR chemical shifts of 113 Substituted Benzenes. Appendix 3. The
observed vs calculated 1H NMR chemical shifts of 65 Substituted Pyridines.
Basic Theory. 1.3 The 1H chemical shift. 1.4. 1H Substituent chemical
shifts (SCS). 1.5 Long range effects on 1H chemical shifts. 1.6.Tables of
1H Chemical Shifts of Common Cyclic Systems. Chapter 2: Interpretation of
1H NMR coupling patterns. 2.1 Fine Structure due to HH coupling. 2.2 The
Analysis of NMR Spectra. 2.3. The Mechanism of Spin-Spin Coupling. 2.4. HF
Couplings. Chapter 3: Methods of Predicting 1H Chemical Shifts. 3.1.
Quantum mechanical calculations of 1H Chemical shifts. 3.2. The Data Base
Approach, the Hose code. 3.3. Semi-empirical calculations,. 3.4. Theory of
the CHARGE program,. Chapter 4: Modelling 1H Chemical Shifts,
Alkanes,Alkenes and Alkynes. 4.1. Alkanes. a) Acyclic alkanes. b) Cyclic
Alkanes. c) Methyl Cycloalkanes. d) Androstane. e) Chemical Shift
contributions in Cyclohexane. 4.2 Alkenes. a) Acyclic alkenes. b)
Monocyclic alkenes. c) Aromatic alkenes. d) Norbornenes and bicyclooctenes.
e) Pinenes. f) Conclusions. 4.3.Alkynes. 4.4. Summary. Chapter 5: MODELLING
1H CHEMICAL SHIFTS, Aromatics. 5.1 Aromatic Hydrocarbons. a) Condensed
aromatics. b) Cyclophanes. c)Substituted Benzenes. 5.2. Heteroaromatics. a)
Furans, thiophenes and pyrroles. b) Indoles,quinolines ans isoquinolines.
c) Diazabenzenes and azoles. 5.3. Summary. Chapter 6: MODELLING 1H CHEMICAL
SHIFTS, Mono valent Substituents. 6.1. Flourocompounds. 6.2.
Steric,Anisotropic and Electric Field Effects in Chloro,bromo and Iodo SCS.
6.3. Hydroxy Compounds. 6.4. Amines. 6.5. Cyanides. 6.6. Nitro Compounds.
6.7. Summary. Chapter 7: MODELLING 1H CHEMICAL SHIFTS, Divalent
Substituents. 7.1. Aldehydes and Ketones. a) Observed vs Calculated shifts.
a). Keto-enol tautomerism in anthrone. 7.2. Esters. 7.3 Amides. 7.4.
Ethers. 7.5. Sulfoxides, sulfones, sulphites. 7.6. Summary. Chapter 8: 1H
CHEMICAL SHIFTS AND STRUCTURAL CHEMISTRY. 8.1. Electronic Structure
Calculations. 8.2. Molecular Mechanics Calculations. 8.3. Molecular
Geometries and 1H Chemical Shifts. 8.4. Rate Processes and NMR Spectra.
8.5. Solvent Effects. 8.6. Summary. Chapter 9: Strategies for 1H NMR
prediction. 9.1. Calculating 1H NMR spectra. 9.2. Automated spectral
prediction, NMRPredict. Appendix 1. The observed vs calculated 1H NMR
chemical shifts of ca 1000 spectra. Appendix 2. The observed vs calculated
1H NMR chemical shifts of 113 Substituted Benzenes. Appendix 3. The
observed vs calculated 1H NMR chemical shifts of 65 Substituted Pyridines.