Description

Book Synopsis

This book bridges the gap between sophomore and advanced / graduate level organic chemistry courses, providing students with a necessary background to begin research in either an industry or academic environment.

Covers key concepts that include retrosynthesis, conformational analysis, and functional group transformations as well as presents the latest developments in organometallic chemistry and CC bond formation
Uses a concise and easy-to-read style, with many illustrated examples
Updates material, examples, and references from the first edition
Adds coverage of organocatalysts and organometallic reagents



Table of Contents

About the Authors ix

Preface to the Second Edition xi

Prefacetothefirstedition xiii

1 SyntheticDesign 1

1.1 Retrosynthetic Analysis 1

1.2 Reversal of the Carbonyl Group Polarity (Umpolung) 6

1.3 Steps in Planning a Synthesis 11

1.4 Choice of Synthetic Method 16

1.5 Domino Reactions (Cascade or Tandem Reactions) 18

1.6 Computer-Assisted Retrosynthetic Analysis 19

References 19

2 Stereochemical Considerations in Planning Syntheses 21

2.1 Conformational Analysis 21

2.2 Evaluation of Non-Bonded Interactions 25

2.3 Six-Membered Heterocyclic Systems 29

2.4 Polycyclic Ring Systems 30

2.5 Cyclohexyl Systems with sp 2 -Hybridized Atoms 33

2.6 Significant Energy Difference 35

2.7 Computer-Assisted Molecular Modeling 35

2.8 Reactivity and Product Determination as a Function of Conformation 36

References 42

3 The Concept of Protecting Functional Groups 45

3.1 Protection of N–H Groups 45

3.2 Protection of OH Groups 48

3.3 Protection of Diols as Acetals 55

3.4 Protection of Carbonyl Groups in Aldehydes and Ketones 56

3.5 Protection of the Carboxyl Group 62

3.6 Protection of Double Bonds 66

3.7 Protection of Triple Bonds 66

References 66

4 Functional Group Transformations 71

4.1 Oxidation of Alcohols to Aldehydes and Ketones 71

4.2 Reagents and Procedures for Alcohol Oxidation 72

4.3 Chemoselective Oxidizing Agents 76

4.4 Oxidation of Acyloins 79

4.5 Oxidation of Tertiary Allylic Alcohols 79

4.6 Oxidative Procedures to Carboxylic Acids 80

4.7 Allylic Oxidation of Alkenes 82

4.8 Terminology for Reduction of Carbonyl Compounds 85

4.9 Nucleophilic Reducing Agents 86

4.10 Electrophilic Reducing Agents 91

4.11 Regio- and Chemoselective Reductions 93

4.12 Diastereoselective Reductions of Cyclic Ketones 97

4.13 Inversion of Secondary Alcohol Stereochemistry 98

4.14 Diastereofacial Selectivity in Acyclic Systems 99

4.15 Enantioselective Reductions 104

References 108

5 Functional Group Transformations 115

5.1 Reactions of Carbon–Carbon Double Bonds 115

5.2 Reactions of Carbon–Carbon Triple Bonds 160

References 167

6 Formation of Carbon–Carbon Single Bonds via Enolate Anions 175

6.1 1,3-Dicarbonyl Compounds 175

6.2 Direct Alkylation of Enolates 185

6.3 Cyclization Reactions—Baldwin’s Rules for Ring Closure 193

6.4 Stereochemistry of Cyclic Ketone Alkylation 195

6.5 Imine and Hydrazone Anions 196

6.6 Enamines 197

6.7 The Aldol Reaction 199

6.8 Condensation Reactions of Enols and Enolates 213

6.9 Robinson Annulation 217

References 220

7 Formation of Carbon–Carbon Bonds via Organometallic Reagents 227

7.1 Organolithium Reagents 227

7.2 Organomagnesium Reagents 236

7.3 Organotitanium Reagents 239

7.4 Organocerium Reagents 240

7.5 Organocopper Reagents 241

7.6 Organochromium Reagents 251

7.7 Organozinc Reagents 252

7.8 Organoboron Reagents 256

7.9 Organosilicon Reagents 264

7.10 Organogold Chemistry 274

References 278

8 Palladium-Catalyzed Coupling Reactions 285

8.1 Palladium Oxidation State 285

8.2 Organic Synthesis with Palladium(0) Complexes 286

8.3 The Heck Reaction—Palladium(0)-Catalyzed Olefin Insertion Reactions 288

8.4 Palladium-Catalyzed Cross-Coupling with Organometallic Reagents 292

8.5 Cross-Coupling Reactions Involving sp-Carbons 301

8.6 The Trost–Tsuji Reaction 304

References 307

9 Formation of Carbon–Carbon π-Bonds 313

9.1 Formation of Carbon–Carbon Double Bonds 313

9.2 Formation of Carbon–Carbon Triple Bonds 343

References 350

10 Syntheses of Carbocyclic Systems 355

10.1 Intramolecular Free Radical Cyclizations 355

10.2 Cation–π Cyclizations 361

10.3 Pericyclic Reactions 364

10.4 Ring-Closing Olefin Metathesis 375

References 378

Index 383

Modern Organic Synthesis

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    A Paperback by George S. Zweifel, Michael H. Nantz, Peter Somfai

    2 in stock


      View other formats and editions of Modern Organic Synthesis by George S. Zweifel

      Publisher: John Wiley & Sons Inc
      Publication Date: 26/01/2017
      ISBN13: 9781119086536, 978-1119086536
      ISBN10:

      Description

      Book Synopsis

      This book bridges the gap between sophomore and advanced / graduate level organic chemistry courses, providing students with a necessary background to begin research in either an industry or academic environment.

      Covers key concepts that include retrosynthesis, conformational analysis, and functional group transformations as well as presents the latest developments in organometallic chemistry and CC bond formation
      Uses a concise and easy-to-read style, with many illustrated examples
      Updates material, examples, and references from the first edition
      Adds coverage of organocatalysts and organometallic reagents



      Table of Contents

      About the Authors ix

      Preface to the Second Edition xi

      Prefacetothefirstedition xiii

      1 SyntheticDesign 1

      1.1 Retrosynthetic Analysis 1

      1.2 Reversal of the Carbonyl Group Polarity (Umpolung) 6

      1.3 Steps in Planning a Synthesis 11

      1.4 Choice of Synthetic Method 16

      1.5 Domino Reactions (Cascade or Tandem Reactions) 18

      1.6 Computer-Assisted Retrosynthetic Analysis 19

      References 19

      2 Stereochemical Considerations in Planning Syntheses 21

      2.1 Conformational Analysis 21

      2.2 Evaluation of Non-Bonded Interactions 25

      2.3 Six-Membered Heterocyclic Systems 29

      2.4 Polycyclic Ring Systems 30

      2.5 Cyclohexyl Systems with sp 2 -Hybridized Atoms 33

      2.6 Significant Energy Difference 35

      2.7 Computer-Assisted Molecular Modeling 35

      2.8 Reactivity and Product Determination as a Function of Conformation 36

      References 42

      3 The Concept of Protecting Functional Groups 45

      3.1 Protection of N–H Groups 45

      3.2 Protection of OH Groups 48

      3.3 Protection of Diols as Acetals 55

      3.4 Protection of Carbonyl Groups in Aldehydes and Ketones 56

      3.5 Protection of the Carboxyl Group 62

      3.6 Protection of Double Bonds 66

      3.7 Protection of Triple Bonds 66

      References 66

      4 Functional Group Transformations 71

      4.1 Oxidation of Alcohols to Aldehydes and Ketones 71

      4.2 Reagents and Procedures for Alcohol Oxidation 72

      4.3 Chemoselective Oxidizing Agents 76

      4.4 Oxidation of Acyloins 79

      4.5 Oxidation of Tertiary Allylic Alcohols 79

      4.6 Oxidative Procedures to Carboxylic Acids 80

      4.7 Allylic Oxidation of Alkenes 82

      4.8 Terminology for Reduction of Carbonyl Compounds 85

      4.9 Nucleophilic Reducing Agents 86

      4.10 Electrophilic Reducing Agents 91

      4.11 Regio- and Chemoselective Reductions 93

      4.12 Diastereoselective Reductions of Cyclic Ketones 97

      4.13 Inversion of Secondary Alcohol Stereochemistry 98

      4.14 Diastereofacial Selectivity in Acyclic Systems 99

      4.15 Enantioselective Reductions 104

      References 108

      5 Functional Group Transformations 115

      5.1 Reactions of Carbon–Carbon Double Bonds 115

      5.2 Reactions of Carbon–Carbon Triple Bonds 160

      References 167

      6 Formation of Carbon–Carbon Single Bonds via Enolate Anions 175

      6.1 1,3-Dicarbonyl Compounds 175

      6.2 Direct Alkylation of Enolates 185

      6.3 Cyclization Reactions—Baldwin’s Rules for Ring Closure 193

      6.4 Stereochemistry of Cyclic Ketone Alkylation 195

      6.5 Imine and Hydrazone Anions 196

      6.6 Enamines 197

      6.7 The Aldol Reaction 199

      6.8 Condensation Reactions of Enols and Enolates 213

      6.9 Robinson Annulation 217

      References 220

      7 Formation of Carbon–Carbon Bonds via Organometallic Reagents 227

      7.1 Organolithium Reagents 227

      7.2 Organomagnesium Reagents 236

      7.3 Organotitanium Reagents 239

      7.4 Organocerium Reagents 240

      7.5 Organocopper Reagents 241

      7.6 Organochromium Reagents 251

      7.7 Organozinc Reagents 252

      7.8 Organoboron Reagents 256

      7.9 Organosilicon Reagents 264

      7.10 Organogold Chemistry 274

      References 278

      8 Palladium-Catalyzed Coupling Reactions 285

      8.1 Palladium Oxidation State 285

      8.2 Organic Synthesis with Palladium(0) Complexes 286

      8.3 The Heck Reaction—Palladium(0)-Catalyzed Olefin Insertion Reactions 288

      8.4 Palladium-Catalyzed Cross-Coupling with Organometallic Reagents 292

      8.5 Cross-Coupling Reactions Involving sp-Carbons 301

      8.6 The Trost–Tsuji Reaction 304

      References 307

      9 Formation of Carbon–Carbon π-Bonds 313

      9.1 Formation of Carbon–Carbon Double Bonds 313

      9.2 Formation of Carbon–Carbon Triple Bonds 343

      References 350

      10 Syntheses of Carbocyclic Systems 355

      10.1 Intramolecular Free Radical Cyclizations 355

      10.2 Cation–π Cyclizations 361

      10.3 Pericyclic Reactions 364

      10.4 Ring-Closing Olefin Metathesis 375

      References 378

      Index 383

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