Transition-Metal-Catalyzed C–H Alkylation Using Alkenes
University of Chicago · The University of Texas at Austin
Abstract
Alkylation reactions represent an important organic transformation to form C-C bonds. In addition to conventional approaches with alkyl halides or sulfonates as alkylating agents, the use of unactivated olefins for alkylations has become attractive from both cost and sustainability viewpoints. This Review summarizes transition-metal-catalyzed alkylations of various carbon-hydrogen bonds (addition of C-H bonds across olefins) using regular olefins or 1,3-dienes up to May 2016. According to the mode of activation, the Review is divided into two sections: alkylation via C-H activation and alkylation via olefin activation.
Citation impact
- FWCI
- 62.68
- Percentile
- 100%
- References
- 324
Authors
5- ZDZhe DongCorresponding
University of Chicago, The University of Texas at Austin
- ZRZhi Ren
The University of Texas at Austin
- SJSamuel J. Thompson
The University of Texas at Austin
- YXYan Xu
University of Chicago, The University of Texas at Austin
- GDGuangbin Dong
University of Chicago, The University of Texas at Austin
Topics & keywords
- Chemistry
- Alkylation
- Catalysis
- Halide
- Olefin fiber
- Alkyl
- Transition metal
- Organic chemistry
- Responsible consumption and production