aza-Baylis−Hillman Reaction
TL;DR: 1.5.1.
Abstract: 2.3.3. Fluorinated Imines 7 2.3.4. Arylimino Acetates 8 2.3.5. In Situ Generated Iminium Ions 8 2.4. -Substituted Michael Acceptors 8 2.5. Formation of Unexpected Products 10 2.5.1. Reaction with Cyclic Enones 11 2.5.2. Reaction with Vinyl Ketones 11 2.5.3. Reaction with Acrolein 12 2.5.4. Reaction with Activated Allenes and Alkynes 12 2.5.5. Reaction of Salicyl N-Tosylimines 12 3. Stereoselective Synthesis 13 3.1. Use of Chiral Aldehydes 13 3.2. Use of Chiral Bases 13 3.3. Use of Chiral Phosphines 16 3.4. Use of a Chiral Sulfide 18 3.5. Use of an Organocatalyst Derived from BINOL 18 3.6. Use of a Chiral Ligand Derived from Thiourea 18 3.7. Use of Chiral Ionic Liquids 18 4. Alternative Access Pathways to -Aminocarbonyl Compounds 18
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772 citations
TL;DR: Acyclic activated alkenes/ alkynes and Asymmetric Baylis-Hillman Reaction: Earlier Developments 5495.
Abstract: 2. Essential Components: Earlier Developments 5449 2.1. Activated alkenes/alkynes 5450 2.1.1. Acyclic activated alkenes/ alkynes 5450 2.1.2. Cyclic activated alkenes 5451 2.2. Electrophiles 5451 2.3. Catalysts 5452 3. Essential Components: Recent Developments 5452 3.1. Activated Alkenes/Alkynes 5452 3.2. Electrophiles 5460 3.3. Catalysts 5477 4. Asymmetric Baylis-Hillman Reaction: Earlier Developments 5495
752 citations
TL;DR: This review focuses on the enantioselective synthesis of spirooxindoles via organocascade strategies and is organized on the basis of three primary starting materials and then further subdivided according to the types of organocatalyst.
Abstract: Spirooxindoles have become a privileged skeleton given their broad and promising activities in various therapeutic areas. The strategies and catalyst systems described here highlight recent advances in the enantioselective synthesis of spirooxindoles via organocascade strategies. Various organocatalysts with distinct activation modes have found application in constructing these sophisticated compounds. This review focuses on the enantioselective synthesis of spirooxindoles via organocascade strategies and is organized on the basis of three primary starting materials and then further subdivided according to the types of organocatalyst. These methods are of importance for the synthesis of complex natural products and the design of new pharmaceutical compounds. We believe that compounds based on spirooxindole skeletons have the potential to provide novel therapeutic agents and useful biological tools.
677 citations
553 citations
TL;DR: This tutorial review provides an overview of the recent history of the asymmetric organocatalysed Mannich reaction, including scope and limitations, and application of different catalyst systems.
Abstract: The asymmetric Mannich reaction ranks among the most potent enantioselective and diastereoselective C–C-bond forming reactions. In recent years, organocatalysed versions of asymmetric Mannich processes have been increasingly reported and used in a rapidly growing number of applications. This tutorial review provides an overview of the recent history of the asymmetric organocatalysed Mannich reaction, including scope and limitations, and application of different catalyst systems.
484 citations
References
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TL;DR: Transition metal-catalyzed methods that are both selective and economical for formation of cyclic structures, of great interest for biological purposes, represent an important starting point for this long-term goal.
Abstract: Efficient synthetic methods required to assemble complex molecular arrays include reactions that are both selective (chemo-, regio-, diastereo-, and enantio-) and economical in atom count (maximum number of atoms of reactants appearing in the products). Methods that involve simply combining two or more building blocks with any other reactant needed only catalytically constitute the highest degree of atom economy. Transition metal-catalyzed methods that are both selective and economical for formation of cyclic structures, of great interest for biological purposes, represent an important starting point for this long-term goal. The limited availability of raw materials, combined with environmental concerns, require the highlighting of these goals.
3,830 citations
1,404 citations
TL;DR: Using mechanistic reasoning, over 20 new processes of varying complexity have been designed and implemented that involved C-C bond-forming reactions and the prospect for such developments is probed in the context of ruthenium-catalyzed reactions.
Abstract: An important first step in making organic reactions more environmentally benign by design requires processes that are, to a first approximation, simple additions with anything else needed only catalytically. Since so few of the existing reactions are additions, synthesis of complex molecules requires the development of new atom-economic methodology. The prospect for such developments is probed in the context of ruthenium-catalyzed reactions. Using mechanistic reasoning, over 20 new processes of varying complexity have been designed and implemented. While some involved oxidation−reduction processes, most involved C−C bond-forming reactions.
1,130 citations
TL;DR: In this paper, an approach to chiral Baylis-hillman adducts is presented. But it does not address the problem of chiral activation and self-dimerization of alkenes.
767 citations
TL;DR: In this paper, the diaza-1,4bicyclo [2.2] octane, la quinuclidine and ses derives, the quinine
621 citations