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Chemoselective cycloadditions to epoxide derivatives of erucic acid with CO and CS: controlled access to value-added bio-derived compounds

The potential for application of bio-derived molecules in our everyday lives is attracting vast interest as attention moves towards development of a truly circular and sustainable economy. Whilst a large number of molecules are naturally available and contain a variety of functional groups, few of t...

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Published in:Organic & biomolecular chemistry 2022-12, Vol.2 (48), p.9629-9638
Main Authors: Álvarez-Miguel, Lucía, Mosquera, Marta E. G, Whiteoak, Christopher J
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Summary:The potential for application of bio-derived molecules in our everyday lives is attracting vast interest as attention moves towards development of a truly circular and sustainable economy. Whilst a large number of molecules are naturally available and contain a variety of functional groups, few of these compounds are able to be immediately transferred to applications where they can directly replace established oil-derived species. This issue presents both a challenge and an opportunity for the synthetic chemistry community. This study demonstrates how erucic acid, a molecule containing an olefin and a carboxylic acid, which is readily available from commonly cultivated rapeseed oils, can be used as a platform to be chemoselectively converted into a range of value-added compounds using established and high yielding synthetic procedures. In particular, the work showcases approaches towards the chemoselective (and in cases regioselective) oxidation with m -CPBA and incorporation of cyclic carbonate and cyclic dithiocarbonate functionalities which have potential to be employed in a range of applications. Expedient routes to unusual derivatives containing both cyclic carbonate and cyclic dithiocarbonates are also presented taking advantage of the distinct reactivities of the two different epoxides in the intermediate compounds. This work also provides a rare example of the synthesis of internal cyclic dithiocarbonates. These new products have potential to be applied as monomers in the growing field of bio-based non-isocyanate polyurethane synthesis. Highly selective methods for the synthesis of cyclic carbonate and dithiocarbonate derivatives of Erucic acid have been developed through synthesis of intermediate epoxides and catalytic couplings with CO 2 /CS 2 .
ISSN:1477-0520
1477-0539
DOI:10.1039/d2ob01482c