De som köpt den här boken har ofta också köpt The Anxious Generation av Jonathan Haidt (inbunden).
Köp båda 2 för 2236 krPENG-FEI XU, PhD, is Director of Teaching Affairs and Professor of Chemistry at Lanzhou University and Deputy Director at the State Key Laboratory of Applied Organic Chemistry. Dr. Xu also serves as an Advisory Board member for the Chinese Chemical Society. During his scientific career, he has published more than 130 papers and received numerous honors and awards, most recently the Award of New Century Excellent Talents in Universities of China and the Thieme Journal Award. WEI WANG, PhD, is Professor of Chemistry at the University of New Mexico. Dr. Wang has published more than 160 peer-reviewed papers. He has received several awards, including The Creative Award from University of New Mexico, The Chinese-American Chemistry & Chemical Biology Professors Association Distinguished Junior Faculty Award, and The American Peptide Society Bruce W. Erickson Young Investigator Award.
Contributors xi Preface xiii 1 Amine-Catalyzed Cascade Reactions 1 Aiguo Song and Wei Wang 1.1 Introduction, 2 1.2 Enamine-Activated Cascade Reactions, 3 1.2.1 Enamine-Enamine Cascades, 3 1.2.2 Enamine-Iminium Cascades, 8 1.2.3 Enamine Catalysis Cyclization, 19 1.3 Iminium-Initiated Cascade Reactions, 21 1.3.1 Design of Iminium-Enamine Cascade Reactions, 21 1.3.2 Iminium-Activated Diels-Alder Reactions, 22 1.3.3 Iminium-Activated Sequential [4 + 2] Reactions, 24 1.3.4 Iminium-Activated [3 + 2] Reactions, 25 1.3.5 Iminium-Activated Sequential [3 + 2] Reactions, 27 1.3.6 Iminium-Activated [2 + 1] Reactions, 30 1.3.7 Iminium-Activated Multicomponent Reactions, 35 1.3.8 Iminium-Activated [3 + 3] Reactions, 37 1.4 Cycle-Specific Catalysis Cascades, 42 1.5 Other Strategies, 45 1.6 Summary and Outlook, 46 References, 46 2 Bronsted Acid-Catalyzed Cascade Reactions 53 Jun Jiang and Liu-Zhu Gong 2.1 Introduction, 54 2.2 Protonic Acid-Catalyzed Cascade Reactions, 55 2.2.1 Mannich Reaction, 55 2.2.2 Pictect-Spengler Reaction, 56 2.2.3 Biginelli Reaction, 58 2.2.4 Povarov Reaction, 59 2.2.5 Reduction Reaction, 60 2.2.6 1,3-Dipolar Cycloaddition, 61 2.2.7 Darzen Reaction, 65 2.2.8 Acyclic Aminal and Hemiaminal Synthesis, 66 2.2.9 Rearrangement Reaction, 67 2.2.10 a,b-Unsaturated Imine-Involved Cyclization Reaction, 69 2.2.11 Alkylation Reaction, 69 2.2.12 Desymmetrization Reaction, 70 2.2.13 Halocyclization, 71 2.2.14 Redox Reaction, 72 2.2.15 Isocyanide-Involved Multicomponent Reaction, 73 2.2.16 Other Protonic Acid-Catalyzed Cascade Reactions, 75 2.3 Chiral Thiourea (Urea)-Catalyzed Cascade Reactions, 75 2.3.1 Neutral Activation, 76 2.3.2 Anion-Binding Catalysis, 99 2.4 Bronsted Acid and Transition Metal Cooperatively Catalyzed Cascade Reactions, 104 2.4.1 Dual Catalysis, 105 2.4.2 Cascade Catalysis, 108 2.5 Conclusions, 116 References, 117 3 Application of Organocatalytic Cascade Reactions in Natural Product Synthesis and Drug Discovery 123 Yao Wang and Peng-Fei Xu 3.1 Introduction, 123 3.2 Amine-Catalyzed Cascade Reactions in Natural Product Synthesis, 125 3.2.1 Iminium-Ion-Catalyzed Cascade Reactions in Natural Product Synthesis, 125 3.2.2 Cycle-Specific Cascade Catalysis in Natural Product Synthesis, 129 3.3 Bronsted Acid-Catalyzed Cascade Reactions in Natural Product Synthesis, 137 3.4 Bifunctional Base/Bronsted Acid-Catalyzed Cascade Reactions in Natural Product Synthesis, 139 3.5 Summary and Outlook, 140 References, 142 4 Gold-Catalyzed Cascade Reactions 145 Yanzhao Wang and Liming Zhang 4.1 Introduction, 145 4.2 Cascade Reactions of Alkynes, 147 4.2.1 Cascade Reactions of Enynes, 147 4.2.2 Cascade Reactions of Propargyl Carboxylates, 156 4.2.3 Cascade Reactions of ortho-Substituted Arylalkynes, 161 4.2.4 Cascade Reactions of Other Alkynes, 165 4.3 Cascade Reactions of Allenes, 170 4.4 Cascade Reactions of Alkenes and Cyclopropenes, 173 4.5 Closing Remarks, 174 References, 174 5 Cascade Reactions Catalyzed by Ruthenium, Iron, Iridium, Rhodium, and Copper 179 Yanguang Wang and Ping Lu 5.1 Introduction, 179 5.2 Ruthenium-Catalyzed Transformations, 180 5.3 Iron-Catalyzed Transformations, 185 5.4 Iridium-Catalyzed Transformations, 191 5.5 Rhodium-Catalyzed Transformations, 194 5.6 Copper-Catalyzed Transformations, 202 5.7 Miscellaneous Catalytic Reactions, 215 5.8 Summary, 219 References, 219 6 Palladium-Catalyzed Cascade Reactions of Alkenes, Alkynes, and Allenes 225 Hongyin Gao and Junliang Zhang 6.1 Introduction, 226 6.2 Cascade Reactions Involving Alkenes, 226 6.2.1 Double Mizoroki-Heck Reaction Cascade, 226 6.2.2 Cascade Heck Reaction/C-H Activation, 227 6.2.3 Cascade Heck Reaction/Reduction/Cyclization, 230 6.2.4 Cascade Heck Reaction/Carbonylation, 231 6.2.5 Cascade Heck Reaction/Suzuki Coupling, 232 6.2.6 Cascade Amino-/Oxopalladation/Carbopalladation R