Redox-Neutral Photocatalytic Cyclopropanation via Radical/Polar Crossover.
James P PhelanSimon B LangJordan S ComptonChristopher B KellyRyan DykstraOsvaldo GutierrezGary A MolanderPublished in: Journal of the American Chemical Society (2018)
A benchtop stable, bifunctional reagent for the redox-neutral cyclopropanation of olefins has been developed. Triethylammonium bis(catecholato)iodomethylsilicate can be readily prepared on multigram scale. Using this reagent in combination with an organic photocatalyst and visible light, cyclopropanation of an array of olefins, including trifluoromethyl- and pinacolatoboryl-substituted alkenes, can be accomplished in a matter of hours. The reaction is highly tolerant of traditionally reactive functional groups (carboxylic acids, basic heterocycles, alkyl halides, etc.) and permits the chemoselective cyclopropanation of polyolefinated compounds. Mechanistic interrogation revealed that the reaction proceeds via a rapid anionic 3- exo- tet ring closure, a pathway consistent with experimental and computational data.
Keyphrases
- visible light
- electron transfer
- ionic liquid
- high resolution
- electronic health record
- high throughput
- single cell
- big data
- molecular docking
- open label
- highly efficient
- clinical trial
- machine learning
- mass spectrometry
- double blind
- data analysis
- study protocol
- deep learning
- water soluble
- quantum dots
- sensitive detection