Intramolecular H-Bonds in an Organocatalyst Enabled an Asymmetric Michael/Alkylation Cascade Reaction to Construct Spirooxindoles Incorporating a Densely Substituted Cyclopropane Motif.
Na WangXiao YanZi-Tian HuYi FengLei ZhuZi-Hang ChenHuan WangQuan-Ling WangQin OuyangPeng-Fei ZhengPublished in: Organic letters (2022)
A cascade Michael addition/alkylation reaction between 3-chlorooxindoles and α-cyano chalcones catalyzed using a multifunctional quinine-derived aminoindanol-thiourea substance was investigated. A series of spirooxindoles incorporating a densely substituted cyclopropane motif were efficiently obtained with moderate to excellent diastereo- and enantioselectivity and further transformed to products with versatile structural diversity. Density functional theory (DFT) calculations indicated that the tentative intramolecular hydrogen bonds in the chiral catalyst were crucial for the stereocontrol.
Keyphrases
- density functional theory
- molecular dynamics
- molecular docking
- room temperature
- ionic liquid
- energy transfer
- metal organic framework
- drug delivery
- high intensity
- visible light
- highly efficient
- cancer therapy
- reduced graphene oxide
- atomic force microscopy
- molecular dynamics simulations
- capillary electrophoresis
- mass spectrometry
- carbon dioxide
- quantum dots