Affiliation:
1. State Key Laboratory of Structural Chemistry Center for Excellence in Molecular Synthesis Fujian Institute of Research on the Structure of Matter University of Chinese Academy of Sciences Fuzhou 350100 China
2. Orthopedics Department Guangdong Provincial Hospital of Traditional Chinese Medicine Guangzhou 510120 China
3. Institute of Industry & Equipment Technology Anhui Province Key Lab of Aerospace Structural Parts Forming Technology and Equipment Hefei University of Technology Hefei 230009 China
Abstract
AbstractTransition‐metal‐catalysed reactions of cyclic ethynylethylene carbonates have been intensively studied because of their robustness in new bond formation and diversified molecule construction. Known reaction modes usually involve a substitution step occurring at either the propargylic or terminal alkyne positions. Here, we report an unprecedented reaction pattern in which cyclic ethynylethylene carbonates first undergo a rearrangement to release allenal intermediates, which subsequently react with diverse nucleophiles to furnish synthetically useful allylic and propargylic allenols, phosphorus ylides, and cyclopropylidene ketones through an addition process rather than a substitution pathway. The products enable various further transformations, and mechanistic studies and theoretical calculations reveal that the reaction does not proceed via a semipinacol type [1,2]‐hydride shift, but through base‐mediated deprotonation as the key step to induce the rearrangement.
Funder
National Natural Science Foundation of China
Subject
General Chemistry,Catalysis
Cited by
4 articles.
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