Asymmetric Addition of Diethylzinc to Aldehydes Using SPINOL Derivatives

Lewis acid catalyzed enantioselective carbon-carbon bond formation is one of the most interesting challenges in catalytic asymmetric synthesis. A convenient route for this synthesis is the addition of organozinc to aldehydes.[1]1,1'-Spirobiindane-7,7'-diol (SPINOL), a new reported C2 symmetrical diol, was recently proven to be an excellent framework for chiral ligands.[2] In this paper, interestingly, we describe the preparation of SPINOL derivatives and application of these ligands to asymmetric addition of diethylzinc to aldehydes as model reaction. Previously, an improved method for the resolution of C2-symmetric spirocyclic SPINOL was presented with crude menthyl chloroformate as resolving reagent.[3] Then (R)-SPINOL with C2-symmetric spirocyclic framework was applied in the asymmetric diethylzinc addition to aromatic aldehydes, which induced high conversions and moderate enantioselectivities for the production of chiral secondary alcohols. Further work of other SPINOL derivative ligands for asymmetric diethylzinc addition to aromatic aldehydes and developing further new SPINOL-based Lewis acid catalyzed asymmetric synthesis are underway.     

Catalytic Asymmetric Conjugate Addition of Indolizines to α,β-Unsaturated Ketones

A catalytic enantioselective conjugate addition of indolizines to enones is described. The chiral phosphoric acid (S)-TRIP activates α,β-unsaturated ketones, thereby promoting an enantioface-differentiating attack by indolizines. Using this reaction, several alkylated indolizines were synthesized in good yields and with enantiomeric ratios of up to 98:2.     

Catalytic Enantioselective Direct Aldol Addition of Aryl Ketones to α-Fluorinated Ketones

The catalytic enantioselective synthesis of α-fluorinated chiral tertiary alcohols from (hetero)aryl methyl ketones is described. The use of a bifunctional iminophosphorane (BIMP) superbase was found to facilitate direct aldol addition by providing the strong Brønsted basicity required for rapid aryl enolate formation. The new synthetic protocol is easy to perform and tolerates a broad range of functionalities and heterocycles with high enantioselectivity (up to >99:1 e.r.). Multi-gram scalability has been demonstrated along with catalyst recovery and recycling. ¹H NMR studies identified a 1400-fold rate enhancement under BIMP catalysis, compared to the prior state-of-the-art catalytic system. The utility of the aldol products has been highlighted with the synthesis of various enantioenriched building blocks and heterocycles, including 1,3-aminoalcohol, 1,3-diol, oxetane, and isoxazoline derivatives.     

Stereoselective Addition of Methyl Acrylate to α-Amino Aldehydes

Variously N-protected α-aminoaldehydes exhibit reasonable diastereoselectivity in the Baylis-Hillman coupling¹ with methyl acrylate to provide either primarily syn or anti α-methylene-β-hydroxy-γ-amino esters.     

Asymmetric Addition of Diethylzinc to Aldehydes Catalyzed by Chiral γ_Amino Alcohols

Although the asymmetric additions of diethylzinc to aldehydes have been extensively studied in the presence of chiral catalyst, most of the chiral ligands tested are b-amino alcohols1. In this report, the synthesis of chiral gamino alcohols 1-4 from the reaction of (+)-camphor and (-)-menthone with 2-lithiomethyl-6-methyl-pyridine or 2-picolly- lithium2, which give a single diasteromer as determined by 1H NMR with high yields (Scheme 1)3, and their application in the enantioselective additio…     

Novel Chiral Ferrocenyl Aziridino Alcohol Catalysts Promoting Asymmetric Addition of Diethylzinc to Aldehydes

Optically active aziridino alcohols containing ferrocenyl groups were prepared from commercially available L-threonine in excellent yields and used as catalysts to promote the asymmetric addition of diethylzinc to aryaldehydes to afford 1-arylpropanol in up to 84% enantiomeric excesses with moderate to good yields.     

Catalytic Asymmetric Conjugate Addition of Thiols to α,β-Unsaturated Thioamides: Expeditious Access to Enantioenriched 1,5-Benzothiazepines

Softly does it: The title reaction proceeded under proton transfer conditions with a catalyst prepared from commercially available reagents to afford the desired product in high enantioselectivity. The reaction was compatible with a free amino group, thus allowing for expeditious access to enantiomerically enriched 1,5-benzothiazepines, which are important chemical entities in medicinal chemistry.     

Novel Polymer‐Bound Aminoalcohol Ligands for the Asymmetric Addition of Diethylzinc to Aldehydes

The synthesis of several novel polymer‐supported aziridine‐containing aminoalcohol chiral ligands has been accomplished, and the polymers have been used as ligands for the catalytic asymmetric addition of diethylzinc to benzaldehyde, giving up to 89% ee. Incorporation onto a polymer support prevents the variation of ee with time that is observed in reactions of one unsupported ligand, perhaps as a result of site isolation of the ligand within the polymer, preventing cooperative effects.     

Organocatalytic Conjugate Addition of Azide Ion to α,β‐Unsaturated Aldehydes

An efficient and simple amine‐catatalyzed azide conjugate addition to α,β‐unsaturated aldehydes has been developed. In the presence of a catalytic amount of tertiary amine with a 1:1 mixture of NaN₃ and 37% HCl in CH₂Cl₂, α,β‐unsaturated aldehydes provided β‐azido aldehydes, which could be transformed into 1,3‐amino alcohols.     

Enantioselective Catalytic Addition of N-Acyl Radicals: In Batch and In Flow Organophotoredox α-Amination of Aldehydes

The organophotoredox catalytic enantioselective addition of N-acyl radicals to aldehydes, to afford enantioenriched N-acyl 1,2 aminoalcohols was studied. Under the best conditions, in batch, the product was isolated in up to 52 % yield and 85 % e.e., using a low cost and commercially available chiral imidazolidinone as organocatalyst. The reaction was then studied in flow, exploring different experimental setups and photoreactors. Although modest yields were obtained, the in-flow process afforded the product in higher productivities (up to 60 times higher) and improved space time yields (increased up to 113 times) compared to the batch reaction, with no loss of stereoselectivity.     

Catalytic Asymmetric Hydrogenation of α-Acetamido Cinnamic Acids

Abstract

The homogeneous catalytic asymmetric hydrogenations of substituted cinnamic acids by (l-Benzyl-3,4-(R,R)-bis(diphenyl-phosphino) pyrrolidine (COD) Rh)BF₄ 6, easily prepared from L-tartaric acid has been studied. Contrary to other catalysts, this Rhodium (I) complex affords very high chemical and optical yields of N-acetylated amino acids under mild conditions even when using substrate to catalyst ratio as high as 16000. The method has been successfully applied for the preparation of L-Phenylalanine and L-Dopa.     

Catalytic Enantioselective Reactions Part 7. Synthesis of New β-Aminoalcohols Derived from α-D-Glucose as Chiral Catalysts for the Catalytic Enantioselective Addition of Diethylzinc to Aldehydes

A series of new 1, 2-O-isopropylidene-3-O-methyl-6-deoxy-6-N, N-dialkylamino-α-D-glucofuranoses 1 and 1, 2-O-isopropylidene-3, 6-dideoxy-6-N, N-dialkylamino-α-D-glucofuranoses 1′ were prepared from α-D-glucose and their enantiose-lectivities compared as chiral catalysts for the ethylation of benzaldehyde and heptanal with diethylzinc.     

Synthesis of Cyclopropenone-Containing Amino Acid Mimic. Addition of Cyclopropenyl Cerium Reagent to α-Amino Aldehydes

A novel amino acid mimic, 2-(2-amino-1-hydroxyalkyl)-cyclopropenone, has been prepared via chelation controlled addition of a cyclopropenyl cerium reagent to an α-amino aldehyde.     

Probing α-Amino Aldehydes as Weakly Acidic Pronucleophiles: Direct Access to Quaternary α-Amino Aldehydes by an Enantioselective Michael Addition Catalyzed by Brønsted Bases

The high tendency of α-amino aldehydes to undergo 1,2-additions and their relatively low stability under basic conditions have largely prevented their use as pronucleophiles in the realm of asymmetric catalysis, particularly for the production of quaternary α-amino aldehydes. Herein, it is demonstrated that the chemistry of α-amino aldehydes may be expanded beyond these limits by documenting the first direct α-alkylation of α-branched α-amino aldehydes with nitroolefins. The reaction produces densely functionalized products bearing up to two, quaternary and tertiary, vicinal stereocenters with high diastereo- and enantioselectivity. DFT modeling leads to the proposal that intramolecular hydrogen bonding between the NH group and the carbonyl oxygen atom in the starting α-amino aldehyde is key for reaction stereocontrol.     

Polystyrene-Supported Aminocatalyst Derived from Diarylprolinol for Asymmetric α-Amination of Aldehydes

A new class of polystyrene-supported aminocatalysts with a triazole linker from diphenyl prolinol were developed. Their catalytic activity was tested in the asymmetric α-amination of aldehydes. The substrate scope of this catalysis was studied under the optimized reaction conditions. The reusability of the polystyrene-supported aminocatalyst was demonstrated up to four cycles. Based on the reaction results, a reaction mechanism was proposed for the asymmetric α-amination of aldehydes.     

Intramolecular Induction of Asymmetric Darzen's Condensation of Aldehydes with Chiral α-Chloroacetates

Inconvergentwithourinterestintheasymmetricsynthesisofnaturalproducts,intramolecularinductionofasymmetricDarzen'scondensationlofaldehydeswithQchloroacetatesofchiralalcoholswasstudies,asshowninScheme1.Scheme1.R*OH CICH,COCI~CICH,COOR*i(-)-menthol(450%)3( )-Jsomenthoi(i56%)5(-)-8-phenylmenthoi(74%)2( )-neomenthol(147%)4( )-f6nchol(478%)6(-)-8-11-naphthylmenthoi(99%)I-henumbersintileparenthesisilldicatedthece%oftilecorrcspondillgmethy13-pllcn}lgl}'cidatcobtainedh\'trallscstcrltiationBenza…     

Photoactive Chiral Metal-Organic Frameworks for Light-Driven Asymmetric α-Alkylation of Aldehydes

Chiral metal-organic frameworks (MOFs) with porous and tunable nature show promise as heterogeneous asymmetric catalysts. Through incorporating the stereoselective organocatalyst l- or d-pyrrolidin-2-ylimidazole (PYI) and a triphenylamine photoredox group into a single framework, we have developed two enantiomeric MOFs, Zn-PYI1 and Zn-PYI2, to prompt the asymmetric α-alkylation of aliphatic aldehydes in a heterogeneous manner. The strong reductive excited state of the triphenylamaine moiety within these MOFs initiated a photoinduced electron transfer, rendering an active intermediate for the α-alkylation. The chiral PYI moieties acted as cooperative organocatalytic active sites to drive the asymmetric catalysis with significant stereoselectivity. Control experiments using the lanthanide-based metal-organic frameworks Ho-TCA and MOF-150, assembled from 4,4',4″-nitrilotribenzoic acid, as catalysts suggested that both the photosensitizer triphenylamine moiety and the chiral organocatalyst d-/l-PYI moiety were necessary for the light-driven α-alkylation reactions. Further investigations demonstrated that the integration of both photocatalyst and asymmetric organocatalyst into a single MOF makes the enantioselection superior to that of simply mixing the corresponding MOFs with the chiral adduct. The easy availability, excellent stereoselectivity, great separability, and individual components fixed with their well-defined porous and repeating structures make the MOF a versatile platform for a new type of tandem catalyst and cooperative catalyst.     

Enantioselective Addition of Phenylacetylene to Aldehydes Catalyzed by Polymer-Supported Sulfonamide

Enantioselective formation of C-C bonds is an area of intense research. Among them, the asymmetric addition of alkynyl reagents to aldehydes is very useful for the synthesis of chiral secondary propargyl alcohols.[1] Recently, many significant homogeneous chiral ligands have been disclosed,[2,3] but very few efficient heterogeneous catalysts have been reported. Herein, we report our research results in the asymmetric addition of phenylacetylene to aldehydes catalyzed by polymer-supported chiral sulfonamide.     

Indium-Mediated Addition of α-Bromoketone to Aldimines

Asanewandusefulreagentinsyntheticchemistry,indiummetalhasarousedmuchinterestinrecentyears.TheuseofindiummetalinReformatskyreactionandinBarbiertypereactionwithcarbonylcompoundshasbeendocumented.ThecyclopropanationofcarbonylcomPoundsbylndiumhasbeenknown3-TheallylationofaldiminesbyindiumundersimpleBarbiertypeconditlonshasalsobeenreported'.Howevertheuseofindiuminorganicsyn-thes1shasnotreceivedadequateattentiondespiteitslowcostandavailability.Oneofthemostobvlousadvantagesoftheindium-mediatedreact…