AI Article Synopsis
- The study introduces a novel approach for converting five-membered alkenyl boronate rings into strained four-membered cyclobutanes using a photo-induced radical reaction.
- The mechanism involves the formation of an α-boryl radical, followed by one-electron oxidation that triggers a rearrangement to yield cyclobutyl boronic ester.
- This method allows for a variety of radical precursors and vinyl boronates to be utilized, achieving high stereocontrol for chiral cyclobutanes and enabling the creation of benzofused cyclobutenes and other functional groups.
Article Abstract
There are a limited number of ring-contraction methodologies which convert readily available five-membered rings into strained four-membered rings. Here we report a photo-induced radical-mediated ring contraction of five-membered-ring alkenyl boronate complexes into cyclobutanes. The process involves the addition of an electrophilic radical to the electron-rich alkenyl boronate complex, leading to an α-boryl radical. Upon one-electron oxidation, ring-contractive 1,2-metalate rearrangement occurs to give a cyclobutyl boronic ester. A range of radical precursors and vinyl boronates can be employed, and chiral cyclobutanes can be accessed with high levels of stereocontrol. The process was extended to the preparation of benzofused cyclobutenes and the versatility of the boronic ester was demonstrated by conversion to other functional groups.
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| http://dx.doi.org/10.1002/anie.201915409 | DOI Listing |
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