ORGANIC CHEMISTRY - GBV
Transcript of ORGANIC CHEMISTRY - GBV
ORGANIC CHEMISTRY
Fifth Edition
Stanley H. Pine Professor of Chemistry California State University, Los Angeles
McGraw-Hill, Inc. New York St. Louis San Francisco Auckland Bogota Caracas Lisbon London Madrid Mexico Milan Montreal New Delhi Paris San Juan Singapore Sydney Tokyo Toronto
Contents
1 What is Organic Chemistry? 1
1-1 The Chemistry of Carbon Compounds 2 1-2 A Historical Perspective 3 1-3 Contemporary Organic Chemistry 6
2 Bonding in Organic Molecules 8
2-1 Bonding 9 2-2 Structural Formulas of Organic Molecules 12 2-3 Electronegativity and Dipoles 22 2-4 Quantum Mechanics and Atomic Orbitals 26 2-5 Molecular Orbitals and Bonding 30 2-6 Hybrid Orbitals 33 2-7 Bond Angles 36 2-8 Bond Energies and Distances 41 2-9 Summary 45 2-10 Supplementary Problems 46
3 Classes and Nomenclature of Organic Compounds— Functional Groups 48
3-1 Hydrocarbons 49 3-2 Heteroatom Functional Groups 65 3-3 Supplementary Problems 89
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4 Characteristic Reactions of Organic Compounds 93
4-1 Acids and Bases 94 4-2 Reactions of Organic Compounds 105 4-3 Oxidation and Reduction 110 4-4 Summary 113 4-5 Supplementary Problems 113
5 Reaction Mechanism 116
5-1 The Reaction Mechanism 117 5-2 Reaction Energetics 122 5-3 Reaction Kinetics 127 5-4 Summary 129 5-5 Supplementary Problems 130
6 The Shapes of Molecules—Stereochemistry 132
6-1 Representations of Three-Dimensional Molecules 133 6-2 Conformations of Acyclic Compounds 137 6-3 Conformations of Cyclic Compounds 140 6-4 Geometrical Isomerism 152 6-5 Chirality and Optical Activity 163 6-6 Summary 177 6-7 Supplementary Problems 178
7 Structural Effects on Reactivity—Resonance 182
7-1 Structural Effects on Acidity and Basicity 183 7-2 The Resonance Method 190 7-3 Aromatic Compounds 195 7-4 Some Consequences of Resonance 198 7-5 Summary 208 7-6 Supplementary Problems 209
8 Nucleophilic Additions to the Carbonyl Group— Aldehydes and Ketones 212
8-1 Reactivity of the Carbonyl Group 213 8-2 Cyanide as the Nucleophile—The Cyanohydrin Reaction 219 8-3 Oxygen or Sulfur as the Nucleophile—Acetals, Ketals and Hydrates
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8-4 Hydride as the Nucleophüe—Reduction 231 8-5 Carbon as the Nucleophüe—Organometallic Compounds 239 8-6 Nitrogen as the Nucleophüe 248 8-7 Nucleophilic Addition to Carbonyl Analogs 253 8-8 Summary 255 8-9 Supplementary Problems 259
9 Nucleophilic Substitutions on the Carbonyl Group—The Carboxylic Acid Family 265
9-1 Reactivity in the Carboxylic Acid Family 267 9-2 Oxygen or Sulfur as the Nucleophüe—Esters and Carboxylic Acids
270 9-3 Nitrogen as the Nucleophüe—Amides 283 9-4 Acyl Halides and Anhydrides 286 9-5 Hydride as the Nucleophüe—Reduction 291 9-6 Carbon as the Nucleophüe—Organometallic Reagents 295 9-7 Enantiomer Resolution 301 9-8 Nucleophilic Substitution on Derivatives of Sulfuric and Phosphoric
Acids 302 9-9 Summary 308 9-10 Supplementary Problems 312
10 Nucleophilic Substitutions at Saturated Carbon 316
10-1 The Reaction Mechanism 317 10-2 Stereochemistry of Nucleophilic Substitution 322 10-3 The Variables in Nucleophilic Substitution 327 10-4 Summary 343 10-5 Supplementary Problems 345
11 The Scope of Nucleophilic Substitution 348
11-1 Nucleophüe—Substrate Combinations 349 11-2 Halide as the Nucleophüe—Haloalkanes 351 11-3 Competing Reactions 356 11-4 Oxygen and Sulfur as the Nucleophiles—Alcohols, Ethers, and
Sulfides 359 11-5 Nitrogen and Phosphorus as the Nucleophiles—Amines 372 11-6 Neighboring Group Participation 379 11-7 Hydride, Nitrile, and Organometallic Nucleophiles 383 11-8 Summary 389 11-9 Supplementary Problems 391
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12 The Alpha Carbanion—Nucleophilic-Electrophilic Reactivity of Carbonyl Compounds 398
12-1 Enols and Enolate Anions 399 12-2 Addition-Dehydration—The Aldol Reaction 404 12-3 Ester Condensation 411 12-4 Fragmentation of Beta-Dicarbonyl Compounds 418 12-5 Alkylation of Enolate Anions 421 12-6 Other Stabilized Carbanions and Carbon Nucleophiles 430 12-7 Summary 433 12-8 Supplementary Problems 435
13 Nucleophilic Additions and Substitutions in Synthesis 444
13-1 Available Reactions 445 13-2 Experimental Considerations 446 13-3 The Strategy of Synthesis 448 13-4 Synthesis Examples 452 13-5 Summary 456 13-6 Supplementary Problems 457
14 Elimination Reactions—Alkenes and Alkynes 464
14-1 The Reaction Mechanism 466 14-2 Elimination Versus Substitution 471 14-3 The Direction of Elimination 475 14-4 Stereochemistry 479 14-5 Formation of Alkenes 486 14-6 Formation of Alkynes 499 14-7 Other Double and Triple Bonds 501 14-8 Summary 506 14-9 Supplementary Problems 509
15 Electrophilic Additions to Unsaturated Carbon 517
15-1 The Mechanism of Electrophilic Addition 519 15-2 Direction and Stereochemistry of Addition 522 15-3 Additions to Alkenes and Alkynes 525 15-4 Transition Metal Organometallics 557 15-5 Summary 565 15-6 Supplementary Problems 569
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16 Additions to Conjugated Compounds 576
16-1 Conjugated Dienes 577 16-2 Double Bonds Conjugated with Carbonyl Groups 582 16-3 Pericyclic Reactions 588 16-4 Summary 603 16-5 Supplementary Problems 604
17 The Mechanism of Electrophilic Aromatic Substitution 609
17-1 Characteristics of Cyclic Polyenes 610 17-2 Mechanism and Orientation in Electrophilic Aromatic Substitution
616 17-3 Quantitative Correlations of Substituent Effects 629 17-4 Summary 635 17-5 Supplementary Problems 636
18 The Scope oi Aromatic Substitutions 638
18-1 Electrophilic Aromatic Substitution Reactions—Heteroatoms as the Electrophiles 639
18-2 Electrophilic Aromatic Substitution Reactions—Carbon Electrophiles 650
18-3 Nucleophilic Aromatic Substitutions 662 18-4 Synthesis with Aromatic Compounds 673 18-5 Summary 682 18-6 Supplementary Problems 686
19 Polycyclic and Heterocyclic Aromatic Compounds 693
19-1 Polycyclic Aromatic Compounds 694 19-2 Heterocyclic Aromatic Compounds 703 19-3 Summary 715 19-4 Supplementary Problems 716
20 Organic Synthesis 721
20-1 Design of a Synthesis 722 20-2 Reaction Patterns 728 20-3 Stereochemistry 741
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20-4 Applications and Examples 744 20-5 Summary 753 20-6 Supplementary Problems 753
21 Carbohydrates and Nucleosides 757
21-1 Characteristics and Properties of Carbohydrates 758 21-2 Chemistry of Monosaccharides 764 21-3 Oligosaccharides and Polysaccharides 786 21-4 Nucleosides and Nucleotides 796 21-5 Sunlight, Carbohydrates, and Energy 800 21-6 Summary 805 21-7 Supplementary Problems 807
22 Ämino Acids and Proteins 811
22-1 Amino Acids 812 22-2 Peptides 822 22-3 Proteins, Enzymes, and Biosynthesis 840 22-4 Summary 854 22-5 Supplementary Problems 855
23 Lipids 858
23-1 Glycerol Derivatives 859 23-2 Terpenes 866 23-3 Steroids 875 23-4 Prostaglandins 885 23-5 Pheromones 894 23-6 Summary 900 23-7 Supplementary Problems 901
24 Free Radicals 909
24-1 History 911 24-2 Characteristics of Free Radicals 912 24-3 Reactions 922 24-4 Detection of Free Radicals 937 24-5 Summary 939 24-6 Supplementary Problems 940
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25 Natural and Synthetic Polymers 944
25-1 Structural Characteristics 945 25-2 Preparation of Synthetic Polymers 951 25-3 Fibers 963 25-4 Summary 969 25-5 Supplementary Problems 970
26 Molecular Rearrangements 972
26-1 Rearrangement to an Electron-Deficient Atom 973 26-2 Free-Radical and Anionic Rearrangements 995 26-3 Orbital Symmetry Considerations 1000 26-4 Summary 1014 26-5 Supplementary Problems 1015
27 Photochemistry and Electrochemistry 1021
27-1 Principles of Photochemistry 1023 27-2 Photochemical Reactions 1028 27-3 Principles of Electrochemistry 1042 27-4 Electrochemical Reactions 1046 27-5 Summary 1057 27-6 Supplementary Problems 1057
APPENDIX: Spectroscopic Methods 1062
A-l Electromagnetic Radiation 1064 A-2 Nuclear Magnetic Resonance Spectroscopy 1065 A-3 Infrared Spectroscopy 1095 A-4 Ultraviolet and Visible Spectroscopy 1113 A-5 Mass Spectrometry 1120 A-6 Spectroscopic Solution of Structural Problems 1132 A-7 Supplementary Problems 1139
Index 1157