Increasing the Reactivity of Nitrogen Catalysts

Rycke, Nicolas de; Couty, François; David, Olivier

doi:10.1002/chem.201101755

Cited by 150 publications

(61 citation statements)

References 168 publications

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“…Use of more weakly coordinating counterions such as sodium and potassium led to drastically lower yields (entries 7, 8), while magnesium afforded a comparable yield (entry 9). A brief screening of nucleophiles, 37 including 9-azajulolidine, revealed that 4-pyrrolidinopyridine (4-PPY) and LiHMDS was an optimal combination for the NCMAL process (entries 10, 11). As evidence for the requirement of the nucleophile, a control reaction without 4-PPY did not afford any β-lactone (entry 12).…”

Section: Resultsmentioning

confidence: 99%

Rapid assembly of complex cyclopentanes employing chiral, α,β-unsaturated acylammonium intermediates

Liu¹,

Shirley²,

Van³

et al. 2013

Nature Chem

124

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Toward improving synthetic efficiency, organic chemists have turned to bioinspired organocascade or domino processes that generate multiple bonds and stereocenters in a single operation. However, despite the great importance of substituted cyclopentanes, given their prevalence in complex natural products and pharmaceutical agents, the rapid, enantioselective assembly of these carbocycles lags behind cyclohexanes. Herein, we describe a novel Michael-aldol-β-lactonization organocascade process for the synthesis of complex cyclopentanes utilizing chiral α,β-unsaturated acylammonium intermediates, readily generated by activation of commodity unsaturated acid chlorides with chiral isothiourea catalysts. This efficient methodology enables the construction of two C-C bonds, one C-O bond, two rings, and three contiguous stereogenic centers delivering complex cyclopentanes with high levels of relative and absolute stereocontrol. Our results suggest that unsaturated acyl ammonium intermediates have broad utility for the design of organocascade and multicomponent processes with the latter demonstrated by a Michael-Michael-aldol-β-lactonization.

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Section: Resultsmentioning

confidence: 99%

Rapid assembly of complex cyclopentanes employing chiral, α,β-unsaturated acylammonium intermediates

Liu¹,

Shirley²,

Van³

et al. 2013

Nature Chem

124

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“…Cation affinity values are important guidelines for the reactivity of Lewis and Brønstedt bases [1–3]. While proton affinity numbers (either as gas phase proton affinities or as solution phase p K a values) have been used for a long time in quantitative approaches to describe base-induced or base-catalyzed processes, affinity data towards carbon electrophiles have only recently been adopted as tools for the assessment of Lewis base reactivity [4].…”

Section: Introductionmentioning

confidence: 99%

Cation affinity numbers of Lewis bases

Lindner

Tandon²,

Maryasin³

et al. 2012

Beilstein J. Org. Chem.

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SummaryUsing selected theoretical methods the affinity of a large range of Lewis bases towards model cations has been quantified. The range of model cations includes the methyl cation as the smallest carbon-centered electrophile, the benzhydryl and trityl cations as models for electrophilic substrates encountered in Lewis base-catalyzed synthetic procedures, and the acetyl cation as a substrate model for acyl-transfer reactions. Affinities towards these cationic electrophiles are complemented by data for Lewis-base addition to Michael acceptors as prototypical neutral electrophiles.

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“…Introducing an electron-donating group onto the imidazole ring, as evidenced by the increased activity of 4-pyrrolidinylpyridine (abbreviated as PPY) compared to pyridine, seems to be a reasonable method to improve the catalytic activity ( Figure 1). [10] However, to the best of our knowledge, there are no reports concerning aminoimidazole catalysts. [10,11] In our continuing work on chiral imidazole nucleophilic catalysts, we have developed a simple and adjustable chiral bicyclic imidazole (6,7- Figure 1), which does not require H-bonding assistance.…”

Section: Introductionmentioning

confidence: 99%

“…[10] However, to the best of our knowledge, there are no reports concerning aminoimidazole catalysts. [10,11] In our continuing work on chiral imidazole nucleophilic catalysts, we have developed a simple and adjustable chiral bicyclic imidazole (6,7- Figure 1), which does not require H-bonding assistance. This catalyst, which was readily prepared, has been applied to several different reactions, such as the asymmetric Steglich rearrangement, Black rearrangement and phosphorylation reactions.…”

Section: Introductionmentioning

confidence: 99%

Chiral Bicyclic Imidazole Nucleophilic Catalysts: Design, Synthesis, and Application to the Kinetic Resolution of Arylalkylcarbinols

et al. 2014

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A new type of chiral 5-aminoimidazole nucleophilic catalyst, designated as Alkyl-, was rationally designed, synthesized and applied to the kinetic resolution of various aryl-A C H T U N G T R E N N U N G alkylcarbinols with good to excellent enantioselectivities. In particular, for phenyl(tert-butyl)methanol and 1-mesitylethanol, the s factors are as high as 45 and 67, respectively. Additionally, this new kind of chiral imidazole catalyst also showed good enantioselectivity for heteroarylalkylcarbinols.

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Increasing the Reactivity of Nitrogen Catalysts

Cited by 150 publications

References 168 publications

Rapid assembly of complex cyclopentanes employing chiral, α,β-unsaturated acylammonium intermediates

Rapid assembly of complex cyclopentanes employing chiral, α,β-unsaturated acylammonium intermediates

Cation affinity numbers of Lewis bases

Chiral Bicyclic Imidazole Nucleophilic Catalysts: Design, Synthesis, and Application to the Kinetic Resolution of Arylalkylcarbinols

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