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Divergent Elementoboration: 1,3‐Haloboration versus 1,1‐Carboboration of Propargyl Esters

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This work showcases the 1,3‐haloboration reaction of alkynes in which boron and chlorine add to propargyl systems in a proposed sequential oxazoliumborate formation with subsequent ring‐opening and chloride migration. In addition, the functionalization of these propargyl esters with dimethyl groups in the propargylic position leads to stark differences in reactivity whereby a formal 1,1‐carboboration prevails to give the 2,2‐dichloro‐3,4‐dihydrodioxaborinine products as an intramolecular chelate. Density functional theory calculations are used to rationalize the distinct carboboration and haloboration pathways. Significantly, this method represents a metal‐free route to highly functionalized compounds in a single step to give structurally complex products.

Data includes experimental procedures, X-ray data and NMR spectra.

Research results based upon these data are published at http://doi.org/10.1002/chem.201801493


Funding

Expanding the Boundaries in Main Group Chemistry: New Boranes for Novel Reactivity

Engineering and Physical Sciences Research Council

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Mercury or similar to view Xray structures

Data-collection start date

2014-01-01

Data-collection end date

2018-04-01

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    School of Chemistry

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