Enantioselective Cycloaddition Reactions Catalyzed by  BINOL-Derived Phosphoric Acids and N-Triflyl Phosphoramides: Recent Advances

Held, Felix; Grau, Dominik; Tsogoeva, Svetlana B.

doi:10.3390/molecules200916103

Cited by 69 publications

(29 citation statements)

References 37 publications

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“…A class of powerful organocatalysts is represented by Brønsted acid catalysts such as BINOL-derived phosphoric acids, which have already been applied in numerous highly enantioselective transformations [40][41][42][43][44][45][46][47][48][49] since the pioneering studies by the groups of Akiyama et al [50] and Uraguchi and Terada [51].…”

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confidence: 99%

Synthesis of (R)-Modafinil via Organocatalyzed and Non-Heme Iron-Catalyzed Sulfoxidation Using H2O2 as an Environmentally Benign Oxidant

2017

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Abstract:The first organocatalyzed sulfoxidation reaction towards enantioenriched (R)-modafinil (Armodafinil ® ), a drug against narcolepsy, is reported here. A series of chiral organocatalysts, e.g., different chiral BINOL-phosphates, or a fructose-derived N-substituted oxazolidinone ketone (Shi catalyst) were applied for the sulfoxidation reaction with environmentally friendly H 2 O 2 as a convenient oxygen transferring agent. Furthermore, the potential of a biomimetic catalytic system consisting of FeCl 3 and a dipeptide-based chiral ligand was demonstrated, which constitutes the most successful asymmetric non-heme iron-catalyzed synthesis of (R)-modafinil so far.

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confidence: 99%

Synthesis of (R)-Modafinil via Organocatalyzed and Non-Heme Iron-Catalyzed Sulfoxidation Using H2O2 as an Environmentally Benign Oxidant

2017

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“…[5] In most cases, heteroatom-stabilized oxyallyl cations [6] have been used as dienophiles,and almost all processes focused on diastereoselective approaches that relied on the use of inherently chiral substrates [7] or chiral auxiliaries. In particular,asmentioned, there is no precedent for areaction in which b-substituted oxyallyl cations are used as dipoles in this transformation, which therefore limits this method to cycloheptanone adducts without any substituents at the a'-position with respect to the ketone moiety.In this sense,w eh erein report that chiral BINOL-based Brønsted acids [11] catalyze the (4+ +3) cycloaddition [12] between differently substituted furans and oxyallyl cations that are generated in situ by oxidation of allenamides (Scheme 1). [10] In addition, both methods required al arge excess (5-13 equiv) of the diene to provide synthetically useful yields and can only be employed with oxyallyl cations without any substituents at the terminal position.…”

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“…Only aslight improvement in enantioselectivity was observed with the more acidic N-trifluoromethanesulfonyl phosphoramide catalyst 3e (entry 6). [17] Remarkably,y ield ande nantioselectivityc ould be furtheri mprovedbyc hanging thesolvent to EtOAc(entry15),and with othersolvents,better resultsw eren ot observed (entries [12][13][14][15].M oreover, the reaction canb ec arried outw ithf uran as thel imitingr eagent (entry 16). Theseexperiments indicatedthatadonor/acceptor pattern washighlybeneficialf or they ield ands tereoselectivityo ft he reaction,and cycloadduct 4fwasobtainedinavery promising yieldof63% and85:15 e.r.…”

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confidence: 99%

“…In this sense,w eh erein report that chiral BINOL-based Brønsted acids [11] catalyze the (4+ +3) cycloaddition [12] between differently substituted furans and oxyallyl cations that are generated in situ by oxidation of allenamides (Scheme 1). We relied on the hypothesis that such chiral Brønsted acids would favor the formation of the oxyallyl cation intermediate through ring opening of the alkylideneoxirane intermediate that is generated upon chemoselective epoxidation of the allenamide and would also remain attached to this oxyallyl cation through an unconventional bifunctional mode of activation that combines hydrogen-bonding and ion-pairing interactions, [13] thereby exerting their stereochemical influence during the (4+ +3) cycloaddition process.…”

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confidence: 99%

“…when theNatom of theallenamide wassimultaneouslysubstituted with a tert-butoxycarbonyland a para-methoxyphenyl group( entry11). [17] Remarkably,y ield ande nantioselectivityc ould be furtheri mprovedbyc hanging thesolvent to EtOAc(entry15),and with othersolvents,better resultsw eren ot observed (entries [12][13][14][15].M oreover, the reaction canb ec arried outw ithf uran as thel imitingr eagent (entry 16). [18] With theseoptimized conditions in hand,wealso surveyed aw idefamilyofother chiral N-trifluoromethanesulfonylp hosphoramide catalystsb ut withouto bserving any improvements in termsofthe performanceofthe test reaction (see theS upportingI nformation ford etails).I na ll of these experiments, thec ycloadducts 4a-4f were isolated as single diastereomers.…”

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Enantioselective Oxidative (4+3) Cycloadditions between Allenamides and Furans through Bifunctional Hydrogen‐Bonding/Ion‐Pairing Interactions

et al. 2017

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BINOL-based N-trifluoromethanesulfonyl phosphoramides catalyzet he enantioselective (4+ +3) cycloaddition between furans and oxyallyl cations,the latter being generated in situ by oxidation of allenamides.T he chiral organic phosphoramide counteranion is proposed to engage in the activation of the oxyallyl cation intermediate through cooperative hydrogen-bonding and ion-pairing interactions,enabling an efficient chirality transfer that providethe final adducts with high diastereo-and enantioselectivities.R emarkably,t he reaction shows aw ide substrate scope that includes av ariety of substituted allenamides and furans.The construction of seven-membered rings [1] represents am ore challenging task than the preparation of the smaller five-or six-membered analogues owing to their higher ring strain and entropy issues.I np articular,t he 8-oxabicyclo-[3.2.1]octane scaffold (Scheme 1) is ak ey structural motif present in many natural products and synthetic compounds with interesting biological activities. [2] As ac onsequence,t he development of efficient approaches for the stereoselective preparation of such molecular architectures remains atopic of interest. Among the different possibilities,( 4 + +3) cycloadditions are ak ey synthetic method for the stereoselective construction of the cycloheptane core, [3] and especially the ability of allyl cations to undergo cycloadditions with furans [4] has been applied to several successful examples of catalytic and enantioselective versions of this reaction, even though progress in this area dates back af ew years. [5] In most cases, heteroatom-stabilized oxyallyl cations [6] have been used as dienophiles,and almost all processes focused on diastereoselective approaches that relied on the use of inherently chiral substrates [7] or chiral auxiliaries. [8] In fact, only two examples of catalytic and enantioselective (4+ +3) cycloadditions have been reported to date.O ne of these reports made use of the iminium activation approach to activate the oxyallyl cation reagent [9] while the other one relied on aC u II /bis(oxazoline) chiral Lewis acid as the catalyst. [10] In addition, both methods required al arge excess (5-13 equiv) of the diene to provide synthetically useful yields and can only be employed with oxyallyl cations without any substituents at the terminal position. As ar esult, these remarkable pioneering efforts suffered from important limitations in terms of the substrate scope,r estricting the range of architectures that can be obtained. Therefore,alternative versions of this reaction that expand the potential of this approach to the enantioselective synthesis of more elaborated architectures are still missing. In particular,asmentioned, there is no precedent for areaction in which b-substituted oxyallyl cations are used as dipoles in this transformation, which therefore limits this method to cycloheptanone adducts without any substituents at the a'-position with respect to the ketone moiety.In this sense,w eh erein report that chiral BINOL-based Brønsted acids [...

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Asymmetric Acid Organocatalysis

Akiyama

2022

Catalytic Asymmetric Synthesis

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Enantioselective Cycloaddition Reactions Catalyzed by BINOL-Derived Phosphoric Acids and N-Triflyl Phosphoramides: Recent Advances

Cited by 69 publications

References 37 publications

Synthesis of (R)-Modafinil via Organocatalyzed and Non-Heme Iron-Catalyzed Sulfoxidation Using H2O2 as an Environmentally Benign Oxidant

Synthesis of (R)-Modafinil via Organocatalyzed and Non-Heme Iron-Catalyzed Sulfoxidation Using H2O2 as an Environmentally Benign Oxidant

Enantioselective Oxidative (4+3) Cycloadditions between Allenamides and Furans through Bifunctional Hydrogen‐Bonding/Ion‐Pairing Interactions

Asymmetric Acid Organocatalysis

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