Verfügbarkeit: Organosulfur chemistry in asymmetric synthesis

Organosulfur chemistry in asymmetric synthesis:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim WILEY-VCH 2008
Schlagworte:	Asymmetric synthesis Enantioselective catalysis Organosulfur compounds Asymmetrische Synthese Schwefelorganische Verbindungen
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVI, 432 S. graph. Darst.
ISBN:	9783527318544 3527318542

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adam_text	I V Contents Preface XI ListofContributors XIII 1 Asymmetrie Synthesis of Chiral Sulfoxides 1 Henri B. Kagan 1.1 Chiral Sulfoxides 3 1.1.1 Introduction 1 1.1.2 The Main Routes to Chiral Sulfoxides 2 1.2 Use of Chiral Sulfur Precursors 3 1.2.1 Sulfinates (Andersen Method) 3 1.2.2 Diastereoselective Formation of Sulfinates 5 1.2.3 Sulfinates from Sulfites 7 1.2.4 Sulfinamides 9 1.3 Catalytic Enantioselective Sulfide Oxidation 12 1.3.1 Titanium Complexes 32 1.3.1.1 Diesters of Tartaric Acid 12 1.3.1.2 C2-Symmetric 1,2-Diols as Ligands 14 1.3.1.3 Binaphthol and Derivatives 35 1.3.1.4 C3-Symmetric Triethanolamine Ligands 35 1.3.1.5 Ti (Sälen) Catalysts 16 1.3.2 Manganese Complexes 17 1.3.3 Vanadium Complexes 38 1.3.4 Molybdenum Complexes 19 1.3.5 Iron Complexes 19 1.3.6 Miscellaneous 20 1.4 Catalytic Arylation of Sulfenate Anions 21 1.5 Enantioselective Oxidation of Sulfides 22 1.6 Summary 25 References 26 Organosulfar Chemistry in Asymmetrie Synthesis. Edited by Takeshi Toru and Carsten Bolm Copyright © 2008 WILEY-VCH Verlag GmbH Co. KGaA, Weinheim ISBN: 978-3-527-31854-4 VII Contents 2 Asymmetrie Synthesis ofOptically Active Sulfinic Acid Esters 31 Jözef Drabowicz, Piotr Kielbasihski, Dorota Krasowska, and Marion Mikotajczyk 2.1 Introduction 31 2.2 Enantiomeric Sulfinic Acid Esters 32 2.3 Diastereomeric Sulfinic Acid Esters 40 References 53 3 Asymmetrie Transformations Mediated by Sulfinyl Croups 55 Jose L Carc'ia Ruano, Jose Alem'an, M. Beten Cid, M. Angeles Fernändez-lbänez, M. Carmen Maestro, M. Rosario Martin, and Ana M. Mart'tn-Castro 3.1 Introduction 55 3.2 Nucleophilic Additions to C=O and C=N Bonds Mediated by a-Sulfinyl Groups 57 3.2.1 y?-Ketosulfoxides 57 3.2.1.1 Reduction Reactions 57 3.2.1.2 Alkylation Reactions 70 3.2.1.3 Aldol Reaction with /J-Ketosulfoxides Acting as Electrophiles 73 3.2.1.4 Hydrocyanation Reactions 76 3.2.2 /?-Imino(enamino)sulfoxides 79 3.3 Conjugate Additions to a,/?-Unsaturated Sulfoxides 83 3.3.1 Nucleophilic Additions 84 3.3.1.1 (E) and (Z)-2-Substituted Vinyl Sulfoxides 84 3.3.1.2 1-Substituted Vinyl Sulfoxides 88 3.3.2 Tandem Reactions 91 3.3.3 Radical Conjugate Additions and Other Reactions 95 3.4 Cycloadditions 96 3.4.1 Asymmetrie Diels-Alder Reactions 96 3.4.1.1 Sulfinyl Dienophiles 96 3.4.1.2 Sulfinyl Dienes 107 3.4.2 Asymmetrie Hetero Diels-Alder Reactions 109 3.4.3 Asymmetrie 1,3-Dipolar Cycloadditions 111 3.4.3.1 Reactions with Nitrones 111 3.4.3.2 Reactions with Azomethine Ylides 115 3.4.3.3 Reactions with Nitrile Oxides 117 3.4.3.4 Reactions with Diazoalkanes 118 3.4.3.5 Reactions with Other Dipoles 121 3.4.4 Other Asymmetrie Cycloadditions 122 3.5 Asymmetrie Processes Stereocontrolled by Remote Sulfoxides 123 3.5.1 Nucleophilic Processes 123 3.5.1.1 Reactions with Sulfinylated Electrophiles 123 3.5.1.2 Reactions with Sulfinylated Nucleophiles 130 3.6 Asymmetrie Pummerer Reaction 136 References 142 Contents I VII 4 Synthesis and Applications of Chiral Dithioacetal Derivatives 161 Philip C. Bulman Page and Benjamin R. Buckley 4.1 Introduction 161 4.2 Lithiated Dithianes 162 4.3 Alternative Methods 169 4.4 Oxidation Methods for the Construction of Chiral Dithioacetal Derivatives and Applications in Synthesis 171 4.5 Applications of Chiral Dithioacetal Derivatives in Natural Product and Biologically Active Compound Synthesis 176 4.6 Summary 177 References 177 5 Synthesis and Use of Chiral Sulfur Ylides 179 Jean-Franqois Briere and Patrick Metzner 5.1 Introduction 179 5.1.1 Reactions of Sulfonium Ylides 179 5.1.2 Methods of Preparation 280 5.1.3 Conditions for Stereocontrol and Theoretical Investigations 182 5.2 Epoxidation Reaction 183 5.2.1 Stoichiometric Use of Sulfides 183 5.2.1.1 Stilbene Oxides 183 5.2.1.2 Unsaturated Epoxides 186 5.2.1.3 Aliphatic Epoxides 186 5.2.1.4 Terminal Epoxides 187 5.2.1.5 Functional Epoxides 187 5.2.2 Catalytic Use of Sulfides 188 5.3 Aziridination 189 5.3.1 Stoichiometric Aziridination, and Mechanism 190 5.3.2 Catalytic Aziridination 192 5.4 Cyclopropanation 194 5.4.1 Stoichiometric Cyclopropanation 195 5.4.2 Catalytic Cyclopropanation 197 5.5 [2,3]-Sigmatropic Rearrangement 199 5.6 Other Reactions 203 5.7 Conclusions 204 References 204 6 Synthesis and Use of Chiral Sulfoximines 209 Christin Worch, Agathe Christine Mayer, and Carsten Bolm 6.1 Introduction 209 6.2 Synthesis and Structural Modification 211 6.3 Applications in Asymmetrie Synthesis 213 6.3.1 Use of Sulfoximines as Chiral Auxiliaries 214 VIIII Contents 6.3.2 Use of Sulfoximines as Chiral Ligands 224 6.4 Condusions 229 References 229 7 Synthesis and Use of Chiral Sulfinamides 233 Chris H. Senanayake, Zhengxu Hart, and Dhileepkumar Krishnamurthy 7.1 Introduction 233 7.2 Synthesis of Chiral Sulfinamides and Chiral Sulfinylimines 234 7.2.1 Background 234 7.2.2 Synthesis of Chiral Sulfinamides 235 7.2.3 Synthesis of Chiral Sulfinylimines 240 7.3 Use of Chiral Sulfinamides 241 7.3.1 Use as Chiral Sulfinyl Auxiliaries 241 7.3.2 Synthesis of Chiral Amines 241 7.3.3 Synthesis of Aziridines 249 7.3.4 Use of Chiral Sulfinamides as Ligands in Catalytic Asymmetrie Reactions 252 7.3.4.1 Asymmetrie Diels-Alder Reaction 252 7.3.4.2 Asymmetrie Allylic Alkylation Reaction 254 7.3.4.3 Asymmetrie Hydrogenation of Olefins 255 7.3.5 Application of Chiral Sulfinamides in the Synthesis of Biologically Active Molecules 256 7.3.5.1 Synthesis ofSC-53116 256 7.3.5.2 Total Synthesis of (6R,7S)-7-Amino-7,8-Dihydro-a-Bisabolene 257 7.3.5.3 Asymmetrie Synthesis of (—)-Pateamine 258 7.3.5.4 Synthesis of Polyoxamic Acid Lactone 259 7.3.5.5 Synthesis of Single Enantiomers of Sibutramine and Cetirizine 259 7.4 Summary 261 References 262 8 Asymmetrie Catalysis Using Sulfoxides as Ligands 265 Inmaculada Fernändez and Noureddine Khiar 8.1 Introduction 265 8.2 Some Considerations on the Coordination of Sulfoxides 266 8.3 Sulfoxides as Ligands in Metal-Catalyzed Asymmetrie Catalysis 267 8.3.1 Catalytic Hydrogenations 267 8.3.2 Catalytic Cycloadditions 270 8.3.3 Addition of Diethylzinc to Benzaldehyde 272 8.3.4 Catalytic Allylic Substitutions 273 8.3.5 Utilization of Sulfoxides in Other Metal-Catalyzed Asymmetrie Processes 279 8.3.5.1 Use of Sulfoxides in Lewis Acid-Lewis Base Bifunctional Asymmetrie Catalysis 279 Contents I IX 8.3.5.2 Use of Sulfoxides as Chiral Ligands in Combination with Achiral Catalysts 281 8.3.5.3 Use of Sulfoxides as Ligands in Enantioselective Radical Allylation 283 8.3.6 Use of Sulfoxides as Neutral Coordinate-Organocatalysts 284 8.4 Condusions 287 References 288 9 Sulfones in Asymmetrie Catalysis 291 Juan Carlos Carretero, Ramön Gömez Arrayäs, and Javier Adrio 9.1 Introduction 291 9.2 Alkenyl Sulfones in Asymmetrie Catalysis 292 9.2.1 Asymmetrie Catalytic Conjugate Addition 292 9.2.2 Asymmetrie Catalytic Conjugate Reduction 297 9.2.3 Asymmetrie Catalytic Radical Addition 298 9.2.4 Asymmetrie Catalytic Cycloadditions 300 9.2.5 Asymmetrie Catalytic Dihydroxylation and Epoxidation Reactions 301 9.3 Ketosulfones 305 9.3.1 Asymmetrie Reduction of Ketosulfones 305 9.3.2 Diels-Alder Reactions 308 9.3.3 Michael-Aldol Reactions 309 9.4 a-Diazo-/?- Ketosulfones 311 9.5 Miscellaneous: Other Substituted Sulfones 314 9.6 Summary 315 References 317 10 Asymmetrie Reaction of a-Sulfenyl Carbanions 321 Shuichi Nakamura and Takeshi Toru 10.1 Asymmetrie Reactions of a-Sulfenyl Carbanions 321 10.1.1 Introduction 321 10.2 Racemization Mechanism and Configurational Stability of a-Sulfenyl Carbanions 323 10.3 Diastereoselective Reaction of a-Sulfenyl Carbanions 326 10.4 Enantioselective Reaction of a-Sulfenyl Carbanions 329 10.4.1 Reaction Pathway of Enantioselective Reaction of a-Sulfenyl Carbanions 329 10.4.2 Enantioselective Reactions of a-Sulfenyl Carbanions 332 10.4.3 Enantioselective Reactions of a-Lithiated Dithioacetals 344 10.5 Conclusions 346 References 347 X I Contents 11 Stereoselective Reactions with a-Sulfinyl Carbanions 351 Alessandro Volonterio and Matteo Zanda 11.1 Introduction 351 11.2 Stereochemistry of oc-Sulfinyl Carbanions 352 11.3 Alkylation of a-Sulfinyl Carbanions 354 11.4 Conjugated Additions with a-Sulfinyl Carbanions 357 11.5 Additions of a-Sulfinyl Carbanions to Carbonyl Compounds 360 11.6 Additions of a-Sulfinyl Carbanions to Imines and Related Compounds 367 11.7 Conclusions 371 References 372 12 Asymmetrie Reactions of or-Sulfonyl Carbanions 375 Hans-Joachim Cais 12.1 Introduction 375 12.2 Configurationally Stable a-Sulfonyl Carbanions 380 12.3 Configurationally Labile a-Sulfonyl Carbanions 382 12.4 Configurationally Labile a-Sulfonyl Carbanions with an Additional Stereogenic Center 388 References 396 13 Computational Studies on Asymmetrie Reactions with Sulfur Reagents 399 David Balcells and Feliu Maseras 13.1 Introduction 399 13.2 Directing Effect of Chiral Sulfur Substituents 400 13.3 Sulfur Centers in Chiral Intermediates 403 13.4 Synthesis of Chiral Sulfoxides from Prochiral Sulfides 405 13.5 Synthesis of Chiral Sulfoxides from Racemic Precursors 409 13.6 Other Systems Involving Chiral Sulfur Centers 413 13.7 Conclusions and Perspectives 414 References 435 Index 417
adam_txt	I V Contents Preface XI ListofContributors XIII 1 Asymmetrie Synthesis of Chiral Sulfoxides 1 Henri B. Kagan 1.1 Chiral Sulfoxides 3 1.1.1 Introduction 1 1.1.2 The Main Routes to Chiral Sulfoxides 2 1.2 Use of Chiral Sulfur Precursors 3 1.2.1 Sulfinates (Andersen Method) 3 1.2.2 Diastereoselective Formation of Sulfinates 5 1.2.3 Sulfinates from Sulfites 7 1.2.4 Sulfinamides 9 1.3 Catalytic Enantioselective Sulfide Oxidation 12 1.3.1 Titanium Complexes 32 1.3.1.1 Diesters of Tartaric Acid 12 1.3.1.2 C2-Symmetric 1,2-Diols as Ligands 14 1.3.1.3 Binaphthol and Derivatives 35 1.3.1.4 C3-Symmetric Triethanolamine Ligands 35 1.3.1.5 Ti (Sälen) Catalysts 16 1.3.2 Manganese Complexes 17 1.3.3 Vanadium Complexes 38 1.3.4 Molybdenum Complexes 19 1.3.5 Iron Complexes 19 1.3.6 Miscellaneous 20 1.4 Catalytic Arylation of Sulfenate Anions 21 1.5 Enantioselective Oxidation of Sulfides 22 1.6 Summary 25 References 26 Organosulfar Chemistry in Asymmetrie Synthesis. Edited by Takeshi Toru and Carsten Bolm Copyright © 2008 WILEY-VCH Verlag GmbH Co. KGaA, Weinheim ISBN: 978-3-527-31854-4 VII Contents 2 Asymmetrie Synthesis ofOptically Active Sulfinic Acid Esters 31 Jözef Drabowicz, Piotr Kielbasihski, Dorota Krasowska, and Marion Mikotajczyk 2.1 Introduction 31 2.2 Enantiomeric Sulfinic Acid Esters 32 2.3 Diastereomeric Sulfinic Acid Esters 40 References 53 3 Asymmetrie Transformations Mediated by Sulfinyl Croups 55 Jose L Carc'ia Ruano, Jose Alem'an, M. Beten Cid, M. Angeles Fernändez-lbänez, M. Carmen Maestro, M. Rosario Martin, and Ana M. Mart'tn-Castro 3.1 Introduction 55 3.2 Nucleophilic Additions to C=O and C=N Bonds Mediated by a-Sulfinyl Groups 57 3.2.1 y?-Ketosulfoxides 57 3.2.1.1 Reduction Reactions 57 3.2.1.2 Alkylation Reactions 70 3.2.1.3 Aldol Reaction with /J-Ketosulfoxides Acting as Electrophiles 73 3.2.1.4 Hydrocyanation Reactions 76 3.2.2 /?-Imino(enamino)sulfoxides 79 3.3 Conjugate Additions to a,/?-Unsaturated Sulfoxides 83 3.3.1 Nucleophilic Additions 84 3.3.1.1 (E) and (Z)-2-Substituted Vinyl Sulfoxides 84 3.3.1.2 1-Substituted Vinyl Sulfoxides 88 3.3.2 Tandem Reactions 91 3.3.3 Radical Conjugate Additions and Other Reactions 95 3.4 Cycloadditions 96 3.4.1 Asymmetrie Diels-Alder Reactions 96 3.4.1.1 Sulfinyl Dienophiles 96 3.4.1.2 Sulfinyl Dienes 107 3.4.2 Asymmetrie Hetero Diels-Alder Reactions 109 3.4.3 Asymmetrie 1,3-Dipolar Cycloadditions 111 3.4.3.1 Reactions with Nitrones 111 3.4.3.2 Reactions with Azomethine Ylides 115 3.4.3.3 Reactions with Nitrile Oxides 117 3.4.3.4 Reactions with Diazoalkanes 118 3.4.3.5 Reactions with Other Dipoles 121 3.4.4 Other Asymmetrie Cycloadditions 122 3.5 Asymmetrie Processes Stereocontrolled by Remote Sulfoxides 123 3.5.1 Nucleophilic Processes 123 3.5.1.1 Reactions with Sulfinylated Electrophiles 123 3.5.1.2 Reactions with Sulfinylated Nucleophiles 130 3.6 Asymmetrie Pummerer Reaction 136 References 142 Contents I VII 4 Synthesis and Applications of Chiral Dithioacetal Derivatives 161 Philip C. Bulman Page and Benjamin R. Buckley 4.1 Introduction 161 4.2 Lithiated Dithianes 162 4.3 Alternative Methods 169 4.4 Oxidation Methods for the Construction of Chiral Dithioacetal Derivatives and Applications in Synthesis 171 4.5 Applications of Chiral Dithioacetal Derivatives in Natural Product and Biologically Active Compound Synthesis 176 4.6 Summary 177 References 177 5 Synthesis and Use of Chiral Sulfur Ylides 179 Jean-Franqois Briere and Patrick Metzner 5.1 Introduction 179 5.1.1 Reactions of Sulfonium Ylides 179 5.1.2 Methods of Preparation 280 5.1.3 Conditions for Stereocontrol and Theoretical Investigations 182 5.2 Epoxidation Reaction 183 5.2.1 Stoichiometric Use of Sulfides 183 5.2.1.1 Stilbene Oxides 183 5.2.1.2 Unsaturated Epoxides 186 5.2.1.3 Aliphatic Epoxides 186 5.2.1.4 Terminal Epoxides 187 5.2.1.5 Functional Epoxides 187 5.2.2 Catalytic Use of Sulfides 188 5.3 Aziridination 189 5.3.1 Stoichiometric Aziridination, and Mechanism 190 5.3.2 Catalytic Aziridination 192 5.4 Cyclopropanation 194 5.4.1 Stoichiometric Cyclopropanation 195 5.4.2 Catalytic Cyclopropanation 197 5.5 [2,3]-Sigmatropic Rearrangement 199 5.6 Other Reactions 203 5.7 Conclusions 204 References 204 6 Synthesis and Use of Chiral Sulfoximines 209 Christin Worch, Agathe Christine Mayer, and Carsten Bolm 6.1 Introduction 209 6.2 Synthesis and Structural Modification 211 6.3 Applications in Asymmetrie Synthesis 213 6.3.1 Use of Sulfoximines as Chiral Auxiliaries 214 VIIII Contents 6.3.2 Use of Sulfoximines as Chiral Ligands 224 6.4 Condusions 229 References 229 7 Synthesis and Use of Chiral Sulfinamides 233 Chris H. Senanayake, Zhengxu Hart, and Dhileepkumar Krishnamurthy 7.1 Introduction 233 7.2 Synthesis of Chiral Sulfinamides and Chiral Sulfinylimines 234 7.2.1 Background 234 7.2.2 Synthesis of Chiral Sulfinamides 235 7.2.3 Synthesis of Chiral Sulfinylimines 240 7.3 Use of Chiral Sulfinamides 241 7.3.1 Use as Chiral Sulfinyl Auxiliaries 241 7.3.2 Synthesis of Chiral Amines 241 7.3.3 Synthesis of Aziridines 249 7.3.4 Use of Chiral Sulfinamides as Ligands in Catalytic Asymmetrie Reactions 252 7.3.4.1 Asymmetrie Diels-Alder Reaction 252 7.3.4.2 Asymmetrie Allylic Alkylation Reaction 254 7.3.4.3 Asymmetrie Hydrogenation of Olefins 255 7.3.5 Application of Chiral Sulfinamides in the Synthesis of Biologically Active Molecules 256 7.3.5.1 Synthesis ofSC-53116 256 7.3.5.2 Total Synthesis of (6R,7S)-7-Amino-7,8-Dihydro-a-Bisabolene 257 7.3.5.3 Asymmetrie Synthesis of (—)-Pateamine 258 7.3.5.4 Synthesis of Polyoxamic Acid Lactone 259 7.3.5.5 Synthesis of Single Enantiomers of Sibutramine and Cetirizine 259 7.4 Summary 261 References 262 8 Asymmetrie Catalysis Using Sulfoxides as Ligands 265 Inmaculada Fernändez and Noureddine Khiar 8.1 Introduction 265 8.2 Some Considerations on the Coordination of Sulfoxides 266 8.3 Sulfoxides as Ligands in Metal-Catalyzed Asymmetrie Catalysis 267 8.3.1 Catalytic Hydrogenations 267 8.3.2 Catalytic Cycloadditions 270 8.3.3 Addition of Diethylzinc to Benzaldehyde 272 8.3.4 Catalytic Allylic Substitutions 273 8.3.5 Utilization of Sulfoxides in Other Metal-Catalyzed Asymmetrie Processes 279 8.3.5.1 Use of Sulfoxides in Lewis Acid-Lewis Base Bifunctional Asymmetrie Catalysis 279 Contents I IX 8.3.5.2 Use of Sulfoxides as Chiral Ligands in Combination with Achiral Catalysts 281 8.3.5.3 Use of Sulfoxides as Ligands in Enantioselective Radical Allylation 283 8.3.6 Use of Sulfoxides as Neutral Coordinate-Organocatalysts 284 8.4 Condusions 287 References 288 9 Sulfones in Asymmetrie Catalysis 291 Juan Carlos Carretero, Ramön Gömez Arrayäs, and Javier Adrio 9.1 Introduction 291 9.2 Alkenyl Sulfones in Asymmetrie Catalysis 292 9.2.1 Asymmetrie Catalytic Conjugate Addition 292 9.2.2 Asymmetrie Catalytic Conjugate Reduction 297 9.2.3 Asymmetrie Catalytic Radical Addition 298 9.2.4 Asymmetrie Catalytic Cycloadditions 300 9.2.5 Asymmetrie Catalytic Dihydroxylation and Epoxidation Reactions 301 9.3 Ketosulfones 305 9.3.1 Asymmetrie Reduction of Ketosulfones 305 9.3.2 Diels-Alder Reactions 308 9.3.3 Michael-Aldol Reactions 309 9.4 a-Diazo-/?- Ketosulfones 311 9.5 Miscellaneous: Other Substituted Sulfones 314 9.6 Summary 315 References 317 10 Asymmetrie Reaction of a-Sulfenyl Carbanions 321 Shuichi Nakamura and Takeshi Toru 10.1 Asymmetrie Reactions of a-Sulfenyl Carbanions 321 10.1.1 Introduction 321 10.2 Racemization Mechanism and Configurational Stability of a-Sulfenyl Carbanions 323 10.3 Diastereoselective Reaction of a-Sulfenyl Carbanions 326 10.4 Enantioselective Reaction of a-Sulfenyl Carbanions 329 10.4.1 Reaction Pathway of Enantioselective Reaction of a-Sulfenyl Carbanions 329 10.4.2 Enantioselective Reactions of a-Sulfenyl Carbanions 332 10.4.3 Enantioselective Reactions of a-Lithiated Dithioacetals 344 10.5 Conclusions 346 References 347 X I Contents 11 Stereoselective Reactions with a-Sulfinyl Carbanions 351 Alessandro Volonterio and Matteo Zanda 11.1 Introduction 351 11.2 Stereochemistry of oc-Sulfinyl Carbanions 352 11.3 Alkylation of a-Sulfinyl Carbanions 354 11.4 Conjugated Additions with a-Sulfinyl Carbanions 357 11.5 Additions of a-Sulfinyl Carbanions to Carbonyl Compounds 360 11.6 Additions of a-Sulfinyl Carbanions to Imines and Related Compounds 367 11.7 Conclusions 371 References 372 12 Asymmetrie Reactions of or-Sulfonyl Carbanions 375 Hans-Joachim Cais 12.1 Introduction 375 12.2 Configurationally Stable a-Sulfonyl Carbanions 380 12.3 Configurationally Labile a-Sulfonyl Carbanions 382 12.4 Configurationally Labile a-Sulfonyl Carbanions with an Additional Stereogenic Center 388 References 396 13 Computational Studies on Asymmetrie Reactions with Sulfur Reagents 399 David Balcells and Feliu Maseras 13.1 Introduction 399 13.2 Directing Effect of Chiral Sulfur Substituents 400 13.3 Sulfur Centers in Chiral Intermediates 403 13.4 Synthesis of Chiral Sulfoxides from Prochiral Sulfides 405 13.5 Synthesis of Chiral Sulfoxides from Racemic Precursors 409 13.6 Other Systems Involving Chiral Sulfur Centers 413 13.7 Conclusions and Perspectives 414 References 435 Index 417
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id	DE-604.BV023406599
illustrated	Illustrated
index_date	2024-07-02T21:25:48Z
indexdate	2024-07-20T09:45:28Z
institution	BVB
isbn	9783527318544 3527318542
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016589281
oclc_num	192081271
open_access_boolean
owner	DE-91G DE-BY-TUM DE-703 DE-19 DE-BY-UBM
owner_facet	DE-91G DE-BY-TUM DE-703 DE-19 DE-BY-UBM
physical	XVI, 432 S. graph. Darst.
publishDate	2008
publishDateSearch	2008
publishDateSort	2008
publisher	WILEY-VCH
record_format	marc
spelling	Organosulfur chemistry in asymmetric synthesis ed. by Takeshi Toru ... Weinheim WILEY-VCH 2008 XVI, 432 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Asymmetric synthesis Enantioselective catalysis Organosulfur compounds Asymmetrische Synthese (DE-588)4135603-2 gnd rswk-swf Schwefelorganische Verbindungen (DE-588)4180419-3 gnd rswk-swf Schwefelorganische Verbindungen (DE-588)4180419-3 s Asymmetrische Synthese (DE-588)4135603-2 s DE-604 Toru, Takeshi Sonstige oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3060774&prov=M&dok_var=1&dok_ext=htm Inhaltstext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016589281&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Organosulfur chemistry in asymmetric synthesis Asymmetric synthesis Enantioselective catalysis Organosulfur compounds Asymmetrische Synthese (DE-588)4135603-2 gnd Schwefelorganische Verbindungen (DE-588)4180419-3 gnd
subject_GND	(DE-588)4135603-2 (DE-588)4180419-3
title	Organosulfur chemistry in asymmetric synthesis
title_auth	Organosulfur chemistry in asymmetric synthesis
title_exact_search	Organosulfur chemistry in asymmetric synthesis
title_exact_search_txtP	Organosulfur chemistry in asymmetric synthesis
title_full	Organosulfur chemistry in asymmetric synthesis ed. by Takeshi Toru ...
title_fullStr	Organosulfur chemistry in asymmetric synthesis ed. by Takeshi Toru ...
title_full_unstemmed	Organosulfur chemistry in asymmetric synthesis ed. by Takeshi Toru ...
title_short	Organosulfur chemistry in asymmetric synthesis
title_sort	organosulfur chemistry in asymmetric synthesis
topic	Asymmetric synthesis Enantioselective catalysis Organosulfur compounds Asymmetrische Synthese (DE-588)4135603-2 gnd Schwefelorganische Verbindungen (DE-588)4180419-3 gnd
topic_facet	Asymmetric synthesis Enantioselective catalysis Organosulfur compounds Asymmetrische Synthese Schwefelorganische Verbindungen
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3060774&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016589281&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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