<p dir="ltr">Ring strain is the driving force for numerous ring-opening reactions of three- and four-membered heterocycles. By comparison, five-membered heterocycles lack this thermodynamic driving force. As a result, only a few methods exist for the ring-opening of five-membered heterocycles using transition metal catalysts. For unstrained and unactivated 2,5-dihydrofurans this is achieved via a β-O elimination process, wherein, gaining selectivity over a competing β-H elimination is challenging. We report a novel strategy for the asymmetric ring-opening of 2,5-dihydrofurans with dichloroalkenes utilizing an earth-abundant cobalt catalyst. We propose that the dichloroalkenes form reactive vinylidene intermediates with the chiral catalyst, followed by a [2+2] cycloaddition with the heterocyclic alkene. This cobaltacyclobutane exclusively undergoes an outer-sphere β-O elimination assisted by zinc halide. Alternative inner-sphere β-O and β-H elimination pathways are inaccessible from this four-membered metallacycle. This is followed by a transmetallation step to form a zinc metallacycle, which subsequently gives rise to homoallylic alcohols, upon quenching, with high diastero- and enantioselectivity. Additionally, the organozinc intermediate can be trapped in situ by various electrophiles for further derivatizations. DFT model predicts the origin of the high diastereo- as well as enantioselectivity observed in the reaction.</p><p dir="ltr">Furthermore, the cobaltacyclobutane intermediate serves as a dynamic platform, facilitating access to a diverse array of products depending on the alkene partners employed. Utilizing chiral allylic alcohols as alkene partners leads to the translation of stereochemical information enabling the stereospecific synthesis of both <i>E</i>- and <i>Z</i>-isomers of alkenes. Alkenes are important motifs found in various natural products and bioactive compounds. A catalytic approach for the precise control of the alkene geometry is highly valuable since the stereochemistry of alkenes plays a pivotal role in determining the properties of molecules. Our strategy provides access to organozinc dienes which could be functionalized further to form highly substituted 1,4-skipped dienes. Additionally, meso-diols can undergo a desymmetrizing β-O elimination from the cobaltacyclobutane intermediate yielding chiral cyclopentenols with contiguous stereocenters</p>
| Identifer | oai:union.ndltd.org:purdue.edu/oai:figshare.com:article/25366549 |
| Date | 08 March 2024 |
| Creators | Vibha Vijayakumar Kanale (18120484) |
| Source Sets | Purdue University |
| Detected Language | English |
| Type | Text, Thesis |
| Rights | CC BY 4.0 |
| Relation | https://figshare.com/articles/thesis/_b_Catalytic_STEREOSELECTIVE_b_b_Elimination_Reactions_using_Cobalt_Vinylidenes_b_/25366549 |
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