Co-reporter:Jhi Ametovski;Uttam Dutta;Laura Burchill;Debabrata Maiti;David W. Lupton;Joel F. Hooper
Chemical Communications 2017 vol. 53(Issue 97) pp:13071-13074
Publication Date(Web):2017/12/05
DOI:10.1039/C7CC08252E
The (5 + 1) annulation of ynone/cinnamates and related substrates with protected primary amines gives rise to isoquinolones, pyrrolidinones and pyrrolopiperazines in good to excellent yields under phosphine catalysis. The reaction is viable with chiral phosphines, although the selectivity is poor.
Co-reporter:Alison Levens, Feng An, Martin Breugst, Herbert Mayr, and David W. Lupton
Organic Letters 2016 Volume 18(Issue 15) pp:3566-3569
Publication Date(Web):July 19, 2016
DOI:10.1021/acs.orglett.6b01525
The ability to modulate the nucleophilicity and Lewis basicity of N-heterocyclic carbenes is pivotal to their application as organocatalysts. Herein we examine the impact of the N-substituent on the nucleophilicity and Lewis basicity. Four N-substituents popular in NHC organocatalysis, namely, the N-2,6-(CH3O)2C6H3, N-Mes, N-4-CH3OC6H4, and N-tert-butyl groups, have been examined and found to strongly affect the nucleophilicity. Thus, the N-2,6-(CH3O)2C6H3 group provides the most nucleophilic imidazolylidene NHC reported and the N-tert-butyl group one of the least. This difference in nucleophilicity is reflected in the catalyst efficiency, as observed with a recently reported trienyl ester rearrangement.
Co-reporter:Uttam Dutta, David W. Lupton, and Debabrata Maiti
Organic Letters 2016 Volume 18(Issue 4) pp:860-863
Publication Date(Web):February 5, 2016
DOI:10.1021/acs.orglett.6b00147
Alkyne C≡C bond breaking, outside of alkyne metathesis, remains an underdeveloped area in reaction discovery. Recently, nitrogenation has been reported to allow nitrile formation from alkynes. A new protocol for the metal-free C≡C bond cleavage of terminal alkynes to produce nitriles is reported. This method provides an opportunity to synthesize a vast range of nitriles containing aryl, heteroaryl, and natural product derivatives (38 examples). In addition, the potential of tBuONO to act as a powerful nitrogenating agent for terminal aryl alkynes is demonstrated.
Co-reporter:Lisa Cish;Rachel M. Gillard;Jared E. M. Ferno;Alison Levens ;David W. Lupton
Israel Journal of Chemistry 2016 Volume 56( Issue 6-7) pp:522-530
Publication Date(Web):
DOI:10.1002/ijch.201500102
Abstract
Donor-acceptor cyclopropanes are known to serve as dipole precursors capable of engaging in (3+2) annulations with electron-deficient π-systems. In 2013, the reaction of donor-acceptor cyclopropanes with α,β-unsaturated acyl fluorides in an all-carbon (3+2) annulation was discovered. The reaction proceeds in good yields using the IMes NHC to provide diastereomerically pure β-lactone-fused cyclopentanes bearing four contiguous stereocentres. Subsequent studies demonstrated that N-t-butyl substituted homochiral morpholinone NHCs allowed the reaction to be achieved in up to 98 % ee. In this account, a background to this reaction is introduced, along with a complete account of the strengths, limitations and challenges encountered while developing this chemistry.
Co-reporter:Yuji Nakano ;Dr. David W. Lupton
Angewandte Chemie 2016 Volume 128( Issue 9) pp:3187-3191
Publication Date(Web):
DOI:10.1002/ange.201510106
Abstract
N-Heterocyclic carbene-catalyzed formation of β-anionic intermediates from enones has been employed in the enantioselective synthesis of 2-aryl propionates. The reaction was achievable using a homochiral 4-MeOC6H4 morpholinone catalyst allowing the first example of enantioselective catalysis by umpolung of α,β-unsaturated ketones. The reaction is high yielding, and shows robustness with reasonable generality. A mechanism is proposed in which the enantiodetermining protonation is achieved using either hexafluoroisopropanol or the formed naphthol product.
Co-reporter:Yuji Nakano ;Dr. David W. Lupton
Angewandte Chemie International Edition 2016 Volume 55( Issue 9) pp:3135-3139
Publication Date(Web):
DOI:10.1002/anie.201510106
Abstract
N-Heterocyclic carbene-catalyzed formation of β-anionic intermediates from enones has been employed in the enantioselective synthesis of 2-aryl propionates. The reaction was achievable using a homochiral 4-MeOC6H4 morpholinone catalyst allowing the first example of enantioselective catalysis by umpolung of α,β-unsaturated ketones. The reaction is high yielding, and shows robustness with reasonable generality. A mechanism is proposed in which the enantiodetermining protonation is achieved using either hexafluoroisopropanol or the formed naphthol product.
Co-reporter:Mousa Asadi, Joel F. Hooper, David W. Lupton
Tetrahedron 2016 Volume 72(Issue 26) pp:3729-3733
Publication Date(Web):30 June 2016
DOI:10.1016/j.tet.2016.03.075
The use of biodiesel derived from oils and fats is making an increased contribution as a renewable energy source. The synthesis of biodiesel involves transesterification of triglycerides to the monoalkyl esters, a process often made challenging by the presence of free fatty acids (FFA). Herein an integrated flow system for the synthesis of biodiesel, employing a solid supported acid catalyst for esterification of FFAs, followed by transesterification using polymer supported N-heterocycle carbene (NHC) catalyst is reported. This system delivers biodiesel in high yields from a variety of fat and oils, using robust and recyclable catalysts.
Co-reporter:Lisa Candish, Alison Levens and David W. Lupton
Chemical Science 2015 vol. 6(Issue 4) pp:2366-2370
Publication Date(Web):26 Jan 2015
DOI:10.1039/C4SC03726J
N-Heterocyclic carbene catalysed redox isomerisation with reduction about the carbonyl has been developed in the transformation of trienyl esters to tetrasubstituted benzaldehydes. The reaction proceeds in good to excellent yield, and in cases that provide 2,2′-biaryls, enantioselectivity is observed. Mechanistic studies demonstrate the intermediacy of a cyclohexenyl β-lactone, while implicating formation of the homoenolate as turnover limiting.
Co-reporter:Uttam Dutta, Arghya Deb, David W. Lupton and Debabrata Maiti
Chemical Communications 2015 vol. 51(Issue 100) pp:17744-17747
Publication Date(Web):16 Oct 2015
DOI:10.1039/C5CC07799K
A radical based direct C–H iodination protocol for quinolines, quinolones, pyridones, pyridines, and uracil has been developed. The iodination occurs in a C3 selective manner for quinolines and quinolones. Pyridones and pyridines undergo C3 and C5 iodination, while dimethyl uracil undergoes C5 iodination. Scope of the method was demonstrated through the rapid synthesis of both electron rich as well as electron poor heteroaromatic iodides. The protocol was found to be scalable and general, while a mechanism has been proposed.
Co-reporter:Andrei Ungureanu;Alison Levens;Dr. Lisa Cish ; David W. Lupton
Angewandte Chemie International Edition 2015 Volume 54( Issue 40) pp:11780-11784
Publication Date(Web):
DOI:10.1002/anie.201504633
Abstract
A limited array of reactive intermediates have enabled a wealth of discoveries in N-heterocyclic carbene organocatalysis. In this study, the viability of α,β-unsaturated sulfonyl azoliums as double electrophiles in new reactions is examined. Specifically, the (3+3) annulation of such species with the trimethylsilyl enol ethers of various 1,3-dicarbonyl compounds has been developed. This reaction provides access to a range of novel unsaturated δ-sultones (18 examples) in good yields (40–88 %) under mild reaction conditions. Mechanistic studies and the development of an enantioselective variant (55 % yield, 73:27 e.r.) support the intermediacy of an α,β-unsaturated sulfonyl azolium species.
Co-reporter:Andrei Ungureanu;Alison Levens;Dr. Lisa Cish ; David W. Lupton
Angewandte Chemie 2015 Volume 127( Issue 40) pp:11946-11950
Publication Date(Web):
DOI:10.1002/ange.201504633
Abstract
A limited array of reactive intermediates have enabled a wealth of discoveries in N-heterocyclic carbene organocatalysis. In this study, the viability of α,β-unsaturated sulfonyl azoliums as double electrophiles in new reactions is examined. Specifically, the (3+3) annulation of such species with the trimethylsilyl enol ethers of various 1,3-dicarbonyl compounds has been developed. This reaction provides access to a range of novel unsaturated δ-sultones (18 examples) in good yields (40–88 %) under mild reaction conditions. Mechanistic studies and the development of an enantioselective variant (55 % yield, 73:27 e.r.) support the intermediacy of an α,β-unsaturated sulfonyl azolium species.
Co-reporter:Lisa Candish ; Alison Levens ;David W. Lupton
Journal of the American Chemical Society 2014 Volume 136(Issue 41) pp:14397-14400
Publication Date(Web):September 24, 2014
DOI:10.1021/ja508542n
The enantioselective vinylogous Michael/aldol cascade is an underdeveloped approach to cyclohexenes. Herein we describe a highly enantioselective (most ≥98:2 er) and diastereoselective (all ≥15:1 dr) N-heterocyclic carbene catalyzed cycloisomerization of acyclic dienyl esters to cyclohexyl β-lactones. Derivatizations avail cyclohexenes bearing four contiguous stereogenic centers, while mechanistic studies support olefin isomerization prior to cyclization.
Co-reporter:Mousa Asadi, Shannon Bonke, Anastasios Polyzos, and David W. Lupton
ACS Catalysis 2014 Volume 4(Issue 6) pp:2070
Publication Date(Web):May 20, 2014
DOI:10.1021/cs5004917
Fukuyama reduction of thioesters has been achieved using a polymer-supported Pd[0] catalyst (Pd/XAD-4), and continuous flow conditions. The generality of this reaction is good with a range of aldehydes prepared in excellent yields. In addition, an integrated multistep thioesterfication/Fukuyama reduction has been developed that allows acyl chlorides to be directly converted to the corresponding aldehydes. Integral to this process is the use of polymer-supported amine and isocyanate reagents to achieve thioesterification and scavenge unreacted thiol. In addition, catch-and-release purification has been employed to enable isolation of the aldehyde from silylthioether byproducts without the need for chromatographic purification.Keywords: catch-and-release; Fukuyama reduction; heterogeneous catalysis; multistep continuous flow; thioesterification
Co-reporter:Yuji Nakano and David W. Lupton
Chemical Communications 2014 vol. 50(Issue 14) pp:1757-1760
Publication Date(Web):04 Dec 2013
DOI:10.1039/C3CC48545E
Dimethyl carbamoyl tetrahydrocarbazoles undergo directed oxidation using standard conditions to exclusively provide products from C(sp3)–H oxidation. This result is in contrast to recent studies on the directed C–H olefination of hydrocarbazoles, which result in selective aromatic functionalisation.
Co-reporter:Marcin Kowalczyk ;Dr. David W. Lupton
Angewandte Chemie 2014 Volume 126( Issue 21) pp:5418-5421
Publication Date(Web):
DOI:10.1002/ange.201402067
Abstract
The addition of an N-heterocyclic carbene to the carbonyl group of an α,β,γ,δ-unsaturated enol ester affords a hemiacetal azolium intermediate that enables a cascade olefin isomerization/Diels–Alder reaction, for which mechanistic studies implicate Lewis base catalysis. Preliminary studies into the utility of the products have been undertaken with reductive and oxidative cleavage, giving materials for potential use in complex-target synthesis.
Co-reporter:Marcin Kowalczyk ;Dr. David W. Lupton
Angewandte Chemie International Edition 2014 Volume 53( Issue 21) pp:5314-5317
Publication Date(Web):
DOI:10.1002/anie.201402067
Abstract
The addition of an N-heterocyclic carbene to the carbonyl group of an α,β,γ,δ-unsaturated enol ester affords a hemiacetal azolium intermediate that enables a cascade olefin isomerization/Diels–Alder reaction, for which mechanistic studies implicate Lewis base catalysis. Preliminary studies into the utility of the products have been undertaken with reductive and oxidative cleavage, giving materials for potential use in complex-target synthesis.
Co-reporter:Sarah J. Ryan, Lisa Candish and David W. Lupton
Chemical Society Reviews 2013 vol. 42(Issue 12) pp:4906-4917
Publication Date(Web):13 Feb 2013
DOI:10.1039/C3CS35522E
Reaction discovery using N-heterocyclic carbene organocatalysis has been dominated by the chemistry of acyl anion equivalents. Recent studies demonstrate that NHCs are far more diverse catalysts, with a variety of reactions discovered that proceed without acyl anion equivalent formation. In this tutorial review selected examples of acyl anion free NHC catalysis using carbonyl compounds are presented.
Co-reporter:Marsewi Ngatimin, Raphael Frey, Alison Levens, Yuji Nakano, Marcin Kowalczyk, Kristina Konstas, Oliver E. Hutt, and David W. Lupton
Organic Letters 2013 Volume 15(Issue 22) pp:5858-5861
Publication Date(Web):November 5, 2013
DOI:10.1021/ol4029308
Iodobenzene-catalyzed 1,2-olefin functionalization via C–C and C–O bond formation has been achieved with electron rich aromatic groups and vinylogous esters acting as independent nucleophiles. The reaction provides oxabicyclo[3.2.1]octanes and [4.2.1]nonanes from commercially available 3-alkoxy cycohexen-2-ones in three steps.
Co-reporter:Judith Hierold and David W. Lupton
Organic & Biomolecular Chemistry 2013 vol. 11(Issue 36) pp:6150-6160
Publication Date(Web):30 Jul 2013
DOI:10.1039/C3OB40800K
C–C bond fragmentation of structurally diverse carbocycles has been applied to the divergent synthesis of dendrimers. The fragmentation has been paired to deprotection or thio-Michael reaction, allowing the preparation of a fourth generation dendrimer of narrow molecular weight distribution. Methodologies to increase water solubility have been examined using appended carboxylic acid or oligoether moieties. In addition, incorporation of chiral prolinol derivatives has resulted in the synthesis of dendrimers that have been shown to catalyse the α-amination of aldehydes in good yield and modest enantioselectivity.
Co-reporter:Lisa Cish;Dr. Craig M. Forsyth ;Dr. David W. Lupton
Angewandte Chemie International Edition 2013 Volume 52( Issue 35) pp:9149-9152
Publication Date(Web):
DOI:10.1002/anie.201304081
Co-reporter:Christopher J. Gartshore ;Dr. David W. Lupton
Angewandte Chemie International Edition 2013 Volume 52( Issue 15) pp:4113-4116
Publication Date(Web):
DOI:10.1002/anie.201209069
Co-reporter:Christopher J. Gartshore ;Dr. David W. Lupton
Angewandte Chemie 2013 Volume 125( Issue 15) pp:4207-4210
Publication Date(Web):
DOI:10.1002/ange.201209069
Co-reporter:Lisa Cish;Dr. Craig M. Forsyth ;Dr. David W. Lupton
Angewandte Chemie 2013 Volume 125( Issue 35) pp:9319-9322
Publication Date(Web):
DOI:10.1002/ange.201304081
Co-reporter:Lisa Candish ;David W. Lupton
Journal of the American Chemical Society 2012 Volume 135(Issue 1) pp:58-61
Publication Date(Web):December 17, 2012
DOI:10.1021/ja310449k
The N-heterocyclic carbene (NHC)-catalyzed Claisen rearrangement of hybrid Ireland–Coates structures has been achieved, allowing the stereoselective synthesis of highly functionalized β-lactones. The reaction proceeds with high diastereoselectivity (>20:1) and affords a diverse range of β-lactone fused cyclopentanes. Mechanistic studies are detailed.
Co-reporter:Lisa Candish and David W. Lupton
Chemical Science 2012 vol. 3(Issue 2) pp:380-383
Publication Date(Web):28 Sep 2011
DOI:10.1039/C1SC00666E
The first example of Brønsted/Lewis base cascade catalysis using an N-heterocyclic carbene has been realised through the rearrangement of cyclopropyl esters to dihydropyranones. The scope and mechanism of this transformation has been examined implicating a novel NHC-mediated electrocyclic cyclopropane rearrangement followed by an anionic oxy Claisen-rearrangement.
Co-reporter:Judith Hierold and David W. Lupton
Organic Letters 2012 Volume 14(Issue 13) pp:3412-3415
Publication Date(Web):June 19, 2012
DOI:10.1021/ol301386k
A range of spirocyclic γ-lactones have been prepared exploiting a Beckwith–Dowd ring expansion cascade involving 1-, 3-, 4-, and 5-carbon expansion of cyclopentanone and cyclohexanone followed by 5-exo-trig or 5-exo-dig cyclization. This radical cascade reaction can be achieved with various substrates to provide a broad range of γ-lactones spirofused to 6- to 10-membered cycloalkanones.
Co-reporter:Shveta Pandiancherri, Sarah J. Ryan and David W. Lupton
Organic & Biomolecular Chemistry 2012 vol. 10(Issue 39) pp:7903-7911
Publication Date(Web):2012/08/08
DOI:10.1039/C2OB26047F
Lewis base catalysed 1,3-dipolar cycloaddition between α,β-unsaturated acyl fluorides and N-[(trimethylsilyl)methyl]amino ethers has been achieved using 1 mol% DMAP. Competition experiments and 19F-NMR studies indicate that the cycloaddition occurs preferentially between the α,β-unsaturated acyl fluoride and the unstabilised azomethine ylide. In addition, an enantioselective variant, using chiral isothiourea catalysts, has been achieved with 14% ee.
Co-reporter:Sarah J. Ryan, Andreas Stasch, Michael N. Paddon-Row, and David W. Lupton
The Journal of Organic Chemistry 2012 Volume 77(Issue 2) pp:1113-1124
Publication Date(Web):December 12, 2011
DOI:10.1021/jo202500k
The N-heterocyclic carbene catalyzed (4 + 2) cycloaddition between α,β-unsaturated acid fluorides and TMS dienol ethers provides cyclohexene fused β-lactone intermediates stable below −20 °C. These can be intercepted reductively or with organolithium reagents to produce diastereomerically pure cyclohexenes (>20:1 dr) with up to four contiguous stereocenters. The mechanism has been investigated using theoretical calculations and by examining secondary kinetic isotope effects. Together these studies implicate the formation of a diastereomerically pure β-lactone intermediate by a stepwise (4 + 2) cycloaddition involving Michael addition, aldol cyclization, and lactonization.
Co-reporter:Sarah J. Ryan ; Lisa Candish ;David W. Lupton
Journal of the American Chemical Society 2011 Volume 133(Issue 13) pp:4694-4697
Publication Date(Web):March 10, 2011
DOI:10.1021/ja111067j
Herein we report the first all-carbon N-heterocyclic carbene-catalyzed (4 + 2) cycloaddition. The reaction proceeds with α,β-unsaturated acid fluorides and silyl dienol ethers and produces 1,3-cyclohexadienes with complete diastereocontrol (dr >20:1) while demonstrating a new type of reaction cascade exploiting α,β-unsaturated acyl azoliums.
Co-reporter:Marsewi Ngatimin, Raphael Frey, Cecily Andrews, David W. Lupton and Oliver E. Hutt
Chemical Communications 2011 vol. 47(Issue 42) pp:11778-11780
Publication Date(Web):26 Sep 2011
DOI:10.1039/C1CC15015D
Vinylogous esters bearing para or metamethoxy benzyl groups undergo oxidative cyclisation with 5–20 mol% iodobenzene and m-CPBA to give spirofuran or benzopyran containing heterocycles. The reaction allows rapid generation of skeletal complexity in good to excellent yields via a novel oxidative cyclisation.
Co-reporter:Lisa Candish and David W. Lupton
Organic & Biomolecular Chemistry 2011 vol. 9(Issue 23) pp:8182-8189
Publication Date(Web):14 Sep 2011
DOI:10.1039/C1OB05953J
NHC catalysed rearrangement of α,β-unsaturated enol esters derived from formyl acetates and cyclopentyl annulated α,β-unsaturated acids provides the cyclopentapyranone core of (−)-7-deoxyloganin (1) with diastereo- and chemoselectivity in 6 steps starting from (−)-citronellal. The elaboration to the natural product has been investigated using two new approaches. The most successful intercepts our previous work on (−)-7-deoxyloganin (1) allowing completion of a formal total synthesis in 10-steps.
Co-reporter:Judith Hierold, Tina Hsia and David W. Lupton
Organic & Biomolecular Chemistry 2011 vol. 9(Issue 3) pp:783-792
Publication Date(Web):22 Nov 2010
DOI:10.1039/C0OB00632G
Introduction of a β-electron withdrawing group to cycloalkanones allows facile C–C bond fragmentation. The reaction has been demonstrated with a large range of ring sizes, bearing various leaving and electron withdrawing groups, and using a variety of nitrogen and oxygen containing nucleophiles (>30 examples). The application of fragmentation products to the preparation of substituted γ-lactones has been demonstrated. Mechanistic studies are reported which are suggestive of a Grob/Eschenmoser type reaction.
Co-reporter:Shveta Pandiancherri, David W. Lupton
Tetrahedron Letters 2011 Volume 52(Issue 6) pp:671-674
Publication Date(Web):9 February 2011
DOI:10.1016/j.tetlet.2010.11.142
Exposure of N-chloroamines to KOtBu or LDA, in the presence of PMDETA or HMPA, provides 2-azaallyl anions capable of π4s + π2s cycloaddition reactions with a range of olefins. Good yields were achieved with stabilised systems, however, they were more modest when accessing semi-stabilised 2-azaallyl anions. By modifying the reaction conditions, one-pot dehydrochlorination/allylation can also be achieved with a range of N-chloroamines.
Co-reporter:Lisa Candish and David W. Lupton
Organic Letters 2010 Volume 12(Issue 21) pp:4836-4839
Publication Date(Web):September 28, 2010
DOI:10.1021/ol101983h
The diastereoselective N-heterocyclic carbene (NHC) catalyzed rearrangement of α,β-unsaturated enol ester (S)-2b has been used to assemble dihydropyranone (S)-3b, a material embodying the bicyclic core of the iridoid family of natural products. Elaboration of this intermediate, by chemoselective reduction followed by stereoselective β-glycosylation, has allowed the total synthesis of (−)-7-deoxyloganin (1) to be achieved in four subsequent steps.
Co-reporter:Judith Hierold, Angus Gray-Weale and David W. Lupton
Chemical Communications 2010 vol. 46(Issue 36) pp:6789-6791
Publication Date(Web):23 Aug 2010
DOI:10.1039/C0CC02289F
The C–C bond fragmentation of carbocycles has been developed as a new method for the divergent synthesis of dendrimers. The scope of this reaction was examined with the preparation of six first generation dendrimers from structurally diverse and readily available fragmentation precursors. By pairing the fragmentation with a thio-Michael reaction, the preparation of a [G4]-ene24 dendrimer has been achieved.
Co-reporter:Christopher J. Gartshore ;David W. Lupton
Advanced Synthesis & Catalysis 2010 Volume 352( Issue 18) pp:3321-3328
Publication Date(Web):
DOI:10.1002/adsc.201000627
Abstract
Using a two-step procedure a range of bifunctional oxazolidine nitroxyl radicals have been prepared. The application of these co-catalysts to the copper-based aerobic oxidation of alcohols was then investigated. From these studies it was found that the parent tetramethyloxazolidine nitroxyl radical L1 was competent for oxidation in the presence of 2,2′-bipyridine, and the bifunctional pyridyl-containing nitroxyl radicals L2 and L3 could be used in the absence of additional coordinating ligands. Following optimization, the scope of this simplified transformation was explored, demonstrating that a range of primary and secondary benzylic alcohols are readily oxidized. In addition, the oxidation of allylic alcohols and hydroquinone can be achieved.
Co-reporter:Alison Levens; Changhe Zhang; Lisa Candish; Craig M. Forsyth;David W. Lupton
Organic Letters () pp:
Publication Date(Web):October 20, 2015
DOI:10.1021/acs.orglett.5b02693
An enantioselective N-heterocyclic carbene (NHC)-catalyzed diene regenerative (4 + 2) annulation has been achieved through the use of highly nucleophilic morpholinone-derived catalysts. The reaction proceeds with good to excellent yields, high enantioselectivity (most >92% ee), and good diastereoselectivity (most >7:1). The generality of the reaction is high, with 19 examples reported. The utility of the products has been examined with subsequent derivatization in Diels–Alder reactions using electron-poor dienophiles. Furthermore, interception of the proposed β-lactone intermediate has been achieved, allowing the synthesis of compounds bearing four contiguous stereocenters with high levels of enantio- and diastereoselectivity.
Co-reporter:Judith Hierold, Angus Gray-Weale and David W. Lupton
Chemical Communications 2010 - vol. 46(Issue 36) pp:NaN6791-6791
Publication Date(Web):2010/08/23
DOI:10.1039/C0CC02289F
The C–C bond fragmentation of carbocycles has been developed as a new method for the divergent synthesis of dendrimers. The scope of this reaction was examined with the preparation of six first generation dendrimers from structurally diverse and readily available fragmentation precursors. By pairing the fragmentation with a thio-Michael reaction, the preparation of a [G4]-ene24 dendrimer has been achieved.
Co-reporter:Yuji Nakano and David W. Lupton
Chemical Communications 2014 - vol. 50(Issue 14) pp:NaN1760-1760
Publication Date(Web):2013/12/04
DOI:10.1039/C3CC48545E
Dimethyl carbamoyl tetrahydrocarbazoles undergo directed oxidation using standard conditions to exclusively provide products from C(sp3)–H oxidation. This result is in contrast to recent studies on the directed C–H olefination of hydrocarbazoles, which result in selective aromatic functionalisation.
Co-reporter:Judith Hierold, Tina Hsia and David W. Lupton
Organic & Biomolecular Chemistry 2011 - vol. 9(Issue 3) pp:NaN792-792
Publication Date(Web):2010/11/22
DOI:10.1039/C0OB00632G
Introduction of a β-electron withdrawing group to cycloalkanones allows facile C–C bond fragmentation. The reaction has been demonstrated with a large range of ring sizes, bearing various leaving and electron withdrawing groups, and using a variety of nitrogen and oxygen containing nucleophiles (>30 examples). The application of fragmentation products to the preparation of substituted γ-lactones has been demonstrated. Mechanistic studies are reported which are suggestive of a Grob/Eschenmoser type reaction.
Co-reporter:Lisa Candish, Alison Levens and David W. Lupton
Chemical Science (2010-Present) 2015 - vol. 6(Issue 4) pp:NaN2370-2370
Publication Date(Web):2015/01/26
DOI:10.1039/C4SC03726J
N-Heterocyclic carbene catalysed redox isomerisation with reduction about the carbonyl has been developed in the transformation of trienyl esters to tetrasubstituted benzaldehydes. The reaction proceeds in good to excellent yield, and in cases that provide 2,2′-biaryls, enantioselectivity is observed. Mechanistic studies demonstrate the intermediacy of a cyclohexenyl β-lactone, while implicating formation of the homoenolate as turnover limiting.
Co-reporter:Lisa Candish and David W. Lupton
Organic & Biomolecular Chemistry 2011 - vol. 9(Issue 23) pp:NaN8189-8189
Publication Date(Web):2011/09/14
DOI:10.1039/C1OB05953J
NHC catalysed rearrangement of α,β-unsaturated enol esters derived from formyl acetates and cyclopentyl annulated α,β-unsaturated acids provides the cyclopentapyranone core of (−)-7-deoxyloganin (1) with diastereo- and chemoselectivity in 6 steps starting from (−)-citronellal. The elaboration to the natural product has been investigated using two new approaches. The most successful intercepts our previous work on (−)-7-deoxyloganin (1) allowing completion of a formal total synthesis in 10-steps.
Co-reporter:Lisa Candish and David W. Lupton
Chemical Science (2010-Present) 2012 - vol. 3(Issue 2) pp:NaN383-383
Publication Date(Web):2011/09/28
DOI:10.1039/C1SC00666E
The first example of Brønsted/Lewis base cascade catalysis using an N-heterocyclic carbene has been realised through the rearrangement of cyclopropyl esters to dihydropyranones. The scope and mechanism of this transformation has been examined implicating a novel NHC-mediated electrocyclic cyclopropane rearrangement followed by an anionic oxy Claisen-rearrangement.
Co-reporter:Sarah J. Ryan, Lisa Candish and David W. Lupton
Chemical Society Reviews 2013 - vol. 42(Issue 12) pp:NaN4917-4917
Publication Date(Web):2013/02/13
DOI:10.1039/C3CS35522E
Reaction discovery using N-heterocyclic carbene organocatalysis has been dominated by the chemistry of acyl anion equivalents. Recent studies demonstrate that NHCs are far more diverse catalysts, with a variety of reactions discovered that proceed without acyl anion equivalent formation. In this tutorial review selected examples of acyl anion free NHC catalysis using carbonyl compounds are presented.
Co-reporter:Marsewi Ngatimin, Raphael Frey, Cecily Andrews, David W. Lupton and Oliver E. Hutt
Chemical Communications 2011 - vol. 47(Issue 42) pp:NaN11780-11780
Publication Date(Web):2011/09/26
DOI:10.1039/C1CC15015D
Vinylogous esters bearing para or metamethoxy benzyl groups undergo oxidative cyclisation with 5–20 mol% iodobenzene and m-CPBA to give spirofuran or benzopyran containing heterocycles. The reaction allows rapid generation of skeletal complexity in good to excellent yields via a novel oxidative cyclisation.
Co-reporter:Uttam Dutta, Arghya Deb, David W. Lupton and Debabrata Maiti
Chemical Communications 2015 - vol. 51(Issue 100) pp:NaN17747-17747
Publication Date(Web):2015/10/16
DOI:10.1039/C5CC07799K
A radical based direct C–H iodination protocol for quinolines, quinolones, pyridones, pyridines, and uracil has been developed. The iodination occurs in a C3 selective manner for quinolines and quinolones. Pyridones and pyridines undergo C3 and C5 iodination, while dimethyl uracil undergoes C5 iodination. Scope of the method was demonstrated through the rapid synthesis of both electron rich as well as electron poor heteroaromatic iodides. The protocol was found to be scalable and general, while a mechanism has been proposed.
Co-reporter:Judith Hierold and David W. Lupton
Organic & Biomolecular Chemistry 2013 - vol. 11(Issue 36) pp:NaN6160-6160
Publication Date(Web):2013/07/30
DOI:10.1039/C3OB40800K
C–C bond fragmentation of structurally diverse carbocycles has been applied to the divergent synthesis of dendrimers. The fragmentation has been paired to deprotection or thio-Michael reaction, allowing the preparation of a fourth generation dendrimer of narrow molecular weight distribution. Methodologies to increase water solubility have been examined using appended carboxylic acid or oligoether moieties. In addition, incorporation of chiral prolinol derivatives has resulted in the synthesis of dendrimers that have been shown to catalyse the α-amination of aldehydes in good yield and modest enantioselectivity.
Co-reporter:Shveta Pandiancherri, Sarah J. Ryan and David W. Lupton
Organic & Biomolecular Chemistry 2012 - vol. 10(Issue 39) pp:NaN7911-7911
Publication Date(Web):2012/08/08
DOI:10.1039/C2OB26047F
Lewis base catalysed 1,3-dipolar cycloaddition between α,β-unsaturated acyl fluorides and N-[(trimethylsilyl)methyl]amino ethers has been achieved using 1 mol% DMAP. Competition experiments and 19F-NMR studies indicate that the cycloaddition occurs preferentially between the α,β-unsaturated acyl fluoride and the unstabilised azomethine ylide. In addition, an enantioselective variant, using chiral isothiourea catalysts, has been achieved with 14% ee.
![Benzonitrile, 4-[(1Z)-2-(trimethoxysilyl)-1-(trimethylsilyl)ethenyl]-](/data/chemimg/139900/1407505-37-6.png)
![Benzonitrile, 4-[(1Z)-2-(trimethoxysilyl)-1-(trimethylsilyl)ethenyl]-](/data/chemimg/139900/1407505-37-6_b.png)
![1H-Imidazole, 1-[4-(1,1-dimethylethyl)phenyl]-](http://img.cochemist.com/ccimg/223800/223762-68-3.png)
![1H-Imidazole, 1-[4-(1,1-dimethylethyl)phenyl]-](http://img.cochemist.com/ccimg/223800/223762-68-3_b.png)
![2,5-Cyclohexadien-1-one, 2,6-bis(1,1-dimethylethyl)-4-[(4-methoxyphenyl)methylene]-](/data/chemimg/663300/71711-98-3.png)
![2,5-Cyclohexadien-1-one, 2,6-bis(1,1-dimethylethyl)-4-[(4-methoxyphenyl)methylene]-](/data/chemimg/663300/71711-98-3_b.png)
![Silane, [[1-(2-furanyl)ethenyl]oxy]trimethyl-](http://img.cochemist.com/ccimg/62900/62889-08-1.png)
![Silane, [[1-(2-furanyl)ethenyl]oxy]trimethyl-](http://img.cochemist.com/ccimg/62900/62889-08-1_b.png)
![2-Cyclohexen-1-one, 3-[(trimethylsilyl)oxy]-](http://img.cochemist.com/ccimg/62300/62269-48-1.png)
![2-Cyclohexen-1-one, 3-[(trimethylsilyl)oxy]-](http://img.cochemist.com/ccimg/62300/62269-48-1_b.png)
![2-[2-(1,3-dioxolanyl)]benzaldehyde](http://img.cochemist.com/ccimg/59300/59259-01-7.png)
![2-[2-(1,3-dioxolanyl)]benzaldehyde](http://img.cochemist.com/ccimg/59300/59259-01-7_b.png)
![TRIMETHYL-[1-(4-METHYLPHENYL)ETHENOXY]SILANE](http://img.cochemist.com/ccimg/54800/54731-27-0.png)
![TRIMETHYL-[1-(4-METHYLPHENYL)ETHENOXY]SILANE](http://img.cochemist.com/ccimg/54800/54731-27-0_b.png)
![Carbamic acid, N-[(1S)-2-chloro-2-oxo-1-(phenylmethyl)ethyl]-, phenylmethyl ester](/data/chemimg/1260700/52641-32-4.png)
![Carbamic acid, N-[(1S)-2-chloro-2-oxo-1-(phenylmethyl)ethyl]-, phenylmethyl ester](/data/chemimg/1260700/52641-32-4_b.png)
![Benzene, [(1E)-2-iodoethenyl]-](http://img.cochemist.com/ccimg/42600/42599-24-6.png)
![Benzene, [(1E)-2-iodoethenyl]-](http://img.cochemist.com/ccimg/42600/42599-24-6_b.png)
![Cyclopenta[c]pyran-4-carboxylicacid, 1-(b-D-glucopyranosyloxy)-1,4a,5,6,7,7a-hexahydro-7-methyl-,methyl ester, (1S,4aS,7S,7aR)-](http://img.cochemist.com/ccimg/26700/26660-57-1.png)
![Cyclopenta[c]pyran-4-carboxylicacid, 1-(b-D-glucopyranosyloxy)-1,4a,5,6,7,7a-hexahydro-7-methyl-,methyl ester, (1S,4aS,7S,7aR)-](http://img.cochemist.com/ccimg/26700/26660-57-1_b.png)
![Poly[oxy(1-oxo-1,6-hexanediyl)]](http://img.cochemist.com/ccimg/25300/25248-42-4.png)
![Poly[oxy(1-oxo-1,6-hexanediyl)]](http://img.cochemist.com/ccimg/25300/25248-42-4_b.png)
![Cobaltate(2-),[[N,N'-1,2-ethanediylbis[N-[(carboxy-kO)methyl]glycinato-kN,kO]](4-)]-, (OC-6-21)-](http://img.cochemist.com/ccimg/15000/14931-83-0.png)
![Cobaltate(2-),[[N,N'-1,2-ethanediylbis[N-[(carboxy-kO)methyl]glycinato-kN,kO]](4-)]-, (OC-6-21)-](http://img.cochemist.com/ccimg/15000/14931-83-0_b.png)
![2-Butenoic acid, 3-[(trimethylsilyl)oxy]-, ethyl ester](http://img.cochemist.com/ccimg/13300/13257-83-5.png)
![2-Butenoic acid, 3-[(trimethylsilyl)oxy]-, ethyl ester](http://img.cochemist.com/ccimg/13300/13257-83-5_b.png)
![2-Cyclohexen-1-one, 5,5-dimethyl-3-[(trimethylsilyl)oxy]-](http://img.cochemist.com/ccimg/10500/10416-78-1.png)
![2-Cyclohexen-1-one, 5,5-dimethyl-3-[(trimethylsilyl)oxy]-](http://img.cochemist.com/ccimg/10500/10416-78-1_b.png)
