Lydia Scott scite author profile

Herein we report the cycloisomerization of electron-poor 1,5-dienes via the β-azolium ylide to give enantioenriched cyclopentenes. The reaction is mediated by a chiral N-heterocyclic carbene (NHC) catalyst, exploits readily available substrates, has good generality (17 examples), and displays excellent enantioselectivity (mostly >94:6). Studies demonstrating the viability of a related dynamic kinetic resolution are reported, as are those with alternate tethers and derivatizations.

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N‐Heterocyclic Carbene Catalyzed (5+1) Annulations Exploiting a Vinyl Dianion Synthon Strategy

Nguyen

Nakano

Duggan

et al. 2019

Angew Chem Int Ed

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Direct polarity inversion of conjugate acceptors provides av aluable entry to homoenolates.N -heterocyclic carbene (NHC) catalyzedr eactions,i nw hich b-unsubstituted conjugate acceptors undergo homoenolate formation and C À C bond formation twice,h ave been developed. Specifically,t he all-carbon (5+ +1) annulations give ar ange of mono-and bicyclic cyclohexanones (31 examples). In the first family of annulations, b-unsubstituted acrylates tethered to ad ivinyl ketone undergo cycloisomerization, providing hexahydroindenes and tetralins.I nt he second, partially untethered substrates undergo an intermolecular (5+ +1) annulation involving dimerization followed by cycloisomerization. While enantioselectivity was not possible with the former,t he latter proved viable,a llowing cyclohexanones to be produced with high levels of enantiopurity (most > 95:5 e.r.)a nd exclusive diastereoselectivity (> 20:1 d.r.). Derivatizations and mechanistic studies are also reported. Scheme 1. Backgrounda nd mechanistic framework. EWG = electronwithdrawinggroup.Supportinginformation and the ORCID identification number(s) for the author(s) of this article can be found under: https://doi.

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Enantioselective N‐Heterocyclic Carbene Catalyzed Cyclopentene Synthesis via the β‐Azolium Ylide

et al. 2018

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Herein we report the cycloisomerization of electronpoor 1,5-dienes via the b-azolium ylide to give enantioenriched cyclopentenes.T he reaction is mediated by ac hiral N-heterocyclic carbene (NHC) catalyst, exploits readily available substrates,h as good generality (17 examples), and displays excellent enantioselectivity (mostly > 94:6). Studies demonstrating the viability of arelated dynamic kinetic resolution are reported, as are those with alternate tethers and derivatizations.

show abstract

N‐Heterocyclic Carbene Catalyzed (5+1) Annulations Exploiting a Vinyl Dianion Synthon Strategy

et al. 2019

View full text Add to dashboard Cite

Direct polarity inversion of conjugate acceptors provides a valuable entry to homoenolates. N‐heterocyclic carbene (NHC) catalyzed reactions, in which β‐unsubstituted conjugate acceptors undergo homoenolate formation and C−C bond formation twice, have been developed. Specifically, the all‐carbon (5+1) annulations give a range of mono‐ and bicyclic cyclohexanones (31 examples). In the first family of annulations, β‐unsubstituted acrylates tethered to a divinyl ketone undergo cycloisomerization, providing hexahydroindenes and tetralins. In the second, partially untethered substrates undergo an intermolecular (5+1) annulation involving dimerization followed by cycloisomerization. While enantioselectivity was not possible with the former, the latter proved viable, allowing cyclohexanones to be produced with high levels of enantiopurity (most >95:5 e.r.) and exclusive diastereoselectivity (>20:1 d.r.). Derivatizations and mechanistic studies are also reported.

show abstract

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Lydia Scott

The Reaction of Anthracene with Maleic and Fumaric Acid and their Derivatives and with Citraconic Anhydride and Mesaconic Acid

Enantioselective N‐Heterocyclic Carbene Catalyzed Cyclopentene Synthesis via the β‐Azolium Ylide

N‐Heterocyclic Carbene Catalyzed (5+1) Annulations Exploiting a Vinyl Dianion Synthon Strategy

Enantioselective N‐Heterocyclic Carbene Catalyzed Cyclopentene Synthesis via the β‐Azolium Ylide

N‐Heterocyclic Carbene Catalyzed (5+1) Annulations Exploiting a Vinyl Dianion Synthon Strategy

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