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Migratory Aptitudes in Rearrangements of Destabilized Vinyl Cations.


ABSTRACT: The Lewis acid-promoted generation of destabilized vinyl cations from ?-hydroxy diazo ketones leads to an energetically favorable 1,2-shift across the alkene followed by an irreversible C-H insertion to give cyclopentenone products. This reaction sequence overcomes typical challenges of counter-ion trapping and rearrangement reversibility of vinyl cations and has been used to study the migratory aptitudes of nonequivalent substituents in an uncommon C(sp2) to C(sp) vinyl cation rearrangement. The migratory aptitude trends were consistent with those observed in other cationic rearrangements; the substituent that can best stabilize a cation more readily migrates. However, density functional theory calculations show that the situation is more complex. Selectivity in the formation of one conformational isomer of the vinyl cation and facial selective migration across the alkene due to an electrostatic interaction between the vinyl cation and the adjacent carbonyl oxygen work in concert to determine which group migrates. This study provides valuable insight into predicting migration preferences when applying this methodology to the synthesis of structurally complex cyclopentenones that are differentially substituted at the ? and ? positions.

SUBMITTER: Cleary SE 

PROVIDER: S-EPMC7045800 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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Migratory Aptitudes in Rearrangements of Destabilized Vinyl Cations.

Cleary Sarah E SE   Hensinger Magenta J MJ   Qin Zhi-Xin ZX   Hong Xin X   Brewer Matthias M  

The Journal of organic chemistry 20191120 23


The Lewis acid-promoted generation of destabilized vinyl cations from β-hydroxy diazo ketones leads to an energetically favorable 1,2-shift across the alkene followed by an irreversible C-H insertion to give cyclopentenone products. This reaction sequence overcomes typical challenges of counter-ion trapping and rearrangement reversibility of vinyl cations and has been used to study the migratory aptitudes of nonequivalent substituents in an uncommon C(sp<sup>2</sup>) to C(sp) vinyl cation rearra  ...[more]

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