Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Chirality auxiliaries

Asymmetric DieJs-Alder Reactions - Chiral Auxiliaries... [Pg.158]

Clearly, there is a need for techniques which provide access to enantiomerically pure compounds. There are a number of methods by which this goal can be achieved . One can start from naturally occurring enantiomerically pure compounds (the chiral pool). Alternatively, racemic mixtures can be separated via kinetic resolutions or via conversion into diastereomers which can be separated by crystallisation. Finally, enantiomerically pure compounds can be obtained through asymmetric synthesis. One possibility is the use of chiral auxiliaries derived from the chiral pool. The most elegant metliod, however, is enantioselective catalysis. In this method only a catalytic quantity of enantiomerically pure material suffices to convert achiral starting materials into, ideally, enantiomerically pure products. This approach has found application in a large number of organic... [Pg.77]

Progress has been made toward enantioselective and highly regioselective Michael type alkylations of 2-cyclohexen-l -one using alkylcuprates with chiral auxiliary ligands, e. g., anions of either enantiomer of N-[2-(dimethylamino)ethyl]ephedrine (E. J. Corey, 1986), of (S)-2-(methoxymethyl)pyrrolidine (from L-proline R. K. EHeter, 1987) or of chiramt (= (R,R)-N-(l-phenylethyl)-7-[(l-phenylethyl)iinino]-l,3,5-cycloheptatrien-l-amine, a chiral aminotro-ponimine G. M. Villacorta, 1988). Enantioselectivities of up to 95% have been reported. [Pg.20]

The first practical method for asymmetric epoxidation of primary and secondary allylic alcohols was developed by K.B. Sharpless in 1980 (T. Katsuki, 1980 K.B. Sharpless, 1983 A, B, 1986 see also D. Hoppe, 1982). Tartaric esters, e.g., DET and DIPT" ( = diethyl and diisopropyl ( + )- or (— )-tartrates), are applied as chiral auxiliaries, titanium tetrakis(2-pro-panolate) as a catalyst and tert-butyl hydroperoxide (= TBHP, Bu OOH) as the oxidant. If the reaction mixture is kept absolutely dry, catalytic amounts of the dialkyl tartrate-titanium(IV) complex are suflicient, which largely facilitates work-up procedures (Y. Gao, 1987). Depending on the tartrate enantiomer used, either one of the 2,3-epoxy alcohols may be obtained with high enantioselectivity. The titanium probably binds to the diol grouping of one tartrate molecule and to the hydroxy groups of the bulky hydroperoxide and of the allylic alcohol... [Pg.124]

Efficient acetalization of alkenes bearing various EWG with an optically active 1.3-diol 72 proceeds smoothly utilizing PdCN, CuCI. and O2 in DME to give the 1,3-dioxane 73[113], Methacrylamide bearing 4-t-butyloxazolidin-2-one 74 as a chiral auxiliary reacts with MeOH in the presence of PdCE catalyst... [Pg.31]

Chips, semiconductor Chiral additives Chiral-AGP Chiral auxiliaries Chiral crown ethers Chiral hydrogenation Chirality... [Pg.192]

Enantioselective aldoi condensation by means of a chiral auxiliary and boron enolates... [Pg.113]

Chiral Controller. (Synonymous with Chiral Auxiliary). A chiral structural unit which when attached to a substrate enhances stereoselectivity in the formation of new stereocenter(s). [Pg.96]

The most valuable characteristic of the Patemo-Buchi reaction is the ability to set multiple stereocenters in one reaction and the development of diastereocontrolled reactions has been a major theme of research concerning this reaction. Stereocontrol can be envisioned to spring from either the carbonyl or the alkene and be controlled by either the substrate directly or by a chiral auxiliary. Little success has been achieved in substrate-induced selection by the carbonyl the most successful results were produced by... [Pg.46]

Chiral oxazolines developed by Albert I. Meyers and coworkers have been employed as activating groups and/or chiral auxiliaries in nucleophilic addition and substitution reactions that lead to the asymmetric construction of carbon-carbon bonds. For example, metalation of chiral oxazoline 1 followed by alkylation and hydrolysis affords enantioenriched carboxylic acid 2. Enantioenriched dihydronaphthalenes are produced via addition of alkyllithium reagents to 1-naphthyloxazoline 3 followed by alkylation of the resulting anion with an alkyl halide to give 4, which is subjected to reductive cleavage of the oxazoline moiety to yield aldehyde 5. Chiral oxazolines have also found numerous applications as ligands in asymmetric catalysis these applications have been recently reviewed, and are not discussed in this chapter. ... [Pg.237]

Cleavage of the chiral auxiliary is effected in a three-step procedure commencing with quatemization of the nitrogen with methyl fluorosulfonate, methyl trlfluoromethanesulfonate, or trimethyloxonium tetrafluoroborate. Reduction of the corresponding iminium salt 19 with NaBH4 and acidic hydrolysis of the resulting product affords substituted aldehyde 5 without epimerization of either stereocenter. [Pg.240]

Zincke-type salts derived from other aromatic nitrogen heterocycles also undergo Zincke reactions. The isoquinolinium salt 6 (Scheme 8.4.16) permitted incorporation of a phenyl ethylamine chiral auxiliary, providing salt 48. In this context and others (vide infra), Marazano and co-workers found that refluxing -butanol was a superior solvent system for the Zincke process. Additionally, the stereochemical integrity of the or-chiral amino fragment was reliably maintained. [Pg.362]

A -sulfinyl chiral auxiliaries have been used to prepare enantiopure tetrahydro-P-carbolines and tetrahydroisoquinolines in good yields under mild reaction conditions. Both enantiomers of V-p-toluenesulfinyltryptamine 46 could be readily prepared from the commercially available Andersen reagents.Compound 46 reacted with various aliphatic aldehydes in the presence of camphorsulfonic acid at -78 °C to give the A-sulfinyl tetrahydro-P-carbolines 47 in good yields. The major diastereomers were obtained after a single crystallization. Removal of the sulfinyl auxiliaries under mildly acidic conditions produced the tetrahydro-P-carbolines 48 as single enantiomers. [Pg.476]

Asymmetric reactions using nonnatural chiral auxiliaries with participation and formation of heterocycles 98YGK386. [Pg.205]

Nonlinear dependence between ee values of chiral auxiliary compound or ligand and product of reaction with participation or formation of heterocycle 98AG(E)2922. [Pg.206]

Asymmetric syntheses of heterocycles using carbohydrates as chiral auxiliaries 97T14823. [Pg.213]

Syntheses and use of vicinal diamines with one or two N atoms included in heterocycle as chiral auxiliaries 98AG(E)2580. [Pg.222]

Novel chiral auxiliary, 2 -isopropyl-5 -methylbenzoxazine-spiro-[2.1 ]cyclo-hexan-4-one, and its application to the synthesis of carbapenem antibiotics 97YGK858. [Pg.229]

Disubstituted 2-oxazolidines as chiral auxiliaries synthesis from 2-oxazolones 97YZ339. [Pg.254]

See other pages where Chirality auxiliaries is mentioned: [Pg.27]    [Pg.201]    [Pg.478]    [Pg.181]    [Pg.72]    [Pg.8]    [Pg.10]    [Pg.47]    [Pg.238]    [Pg.106]   


SEARCH



1.3- Dipolar cycloadditions chiral auxiliaries

1.4- Asymmetric induction with chiral auxiliaries

2-Oxazolidinones: chiral auxiliaries

8-phenylmenthol, as chiral auxiliary

A-Hydroxy esters, as chiral auxiliaries

Absolute stereochemistry chiral auxiliary based methods

Acetals as chiral auxiliaries

Acetals chiral auxiliaries

Aldehydes chiral auxiliaries

Aldol reaction chiral auxiliaries, camphor

Aldol reaction chiral auxiliary

Aldol reactions oxazolidone chiral auxiliary

Aldols chiral auxiliary removal

Alkenes chiral auxiliaries

Alkylation using chiral auxiliaries

Alkylations chiral auxiliaries, camphor

Amines aldol reaction, chiral auxiliary

Amines chiral auxiliaries derived from

Amines chiral auxiliary

Amino acids aldol reaction, chiral auxiliary

Amino alcohols chiral auxiliaries

Amino ethers chiral auxiliary

Aminoindanol and Amino Acid-derived Chiral Auxiliaries

Aminoindanol and Related Chiral Auxiliaries

Application of Chiral Auxiliaries in Industry

Applications of Chiral Auxiliaries

As Chiral Auxiliaries and Ligands

Asymmetric Diels-Alder reaction chiral auxiliaries

Asymmetric Enolate Alkylations Using Chiral Auxiliaries

Asymmetric Reactions using Chiral Auxiliaries

Asymmetric Simmons-Smith reactions chiral auxiliaries

Asymmetric Transformations Using Resin-Bound Chiral Catalysts and Auxiliaries

Asymmetric chiral auxiliary-directed

Asymmetric reactions chiral auxiliaries

Asymmetric reactions chiral auxiliary removal

Asymmetric reductive amination diastereoselective chiral auxiliaries

Asymmetric synthesis with chiral auxiliaries

Asymmetric synthesis, chiral auxiliaries

Asymmetric using chiral auxiliaries

Auxiliaries glycosylations using chiral

Auxiliaries, chiral alcohols

Auxiliaries, chiral condensation

Auxiliaries, chiral ester enolates

Auxiliaries, chiral hydrolysis

Auxiliaries, chiral menthol derivatives

Auxiliaries, chiral oxazolidones

Auxiliaries, chiral phenethylamine

Auxiliaries, chiral with conjugated esters

Auxiliary compounds, chiral

Auxiliary, Sultam-based chiral

Benzyl-oxazolidinone chiral auxiliary

Bidentate chiral auxiliaries

Bryostatin 7 synthesis chiral auxiliaries

C chiral auxiliary

Camphor chiral auxiliary

Camphor derivatives, chiral auxiliaries

Camphor-derived Chiral Auxiliaries

Camphorsultam, as chiral auxiliary

Camphorsultams, as chiral auxiliaries

Carbenes asymmetric reactions, chiral auxiliaries

Carbohydrates as chiral auxiliaries

Carbohydrates chiral auxiliaries derived from

Carbohydrates chiral auxiliaries from

Carbonyl compounds chiral auxiliaries

Carboxylic acids, syn-a-methyl-p-hydroxyaldol reaction titanium enolates, chiral auxiliary

Carboxylic acids, syn-a-methyl-p-hydroxyaldol reaction zirconium enolates, chiral auxiliary

Chelation Chiral auxiliary

Chiral Auxiliaries and Ligands in Asymmetric Synthesis

Chiral Auxiliary Mediated Asymmetric Ireland-Claisen Rearrangements

Chiral Auxiliary Modified Substrates

Chiral Auxiliary that is Cleaved off after the Reaction

Chiral auxiliaries

Chiral auxiliaries 8-phenylmenthol

Chiral auxiliaries 8-phenylmenthyl

Chiral auxiliaries Asymmetric aldol with

Chiral auxiliaries Conjugate addition with

Chiral auxiliaries Davis oxaziridine reagents

Chiral auxiliaries Diels-Alder reaction

Chiral auxiliaries Diels-Alder reaction with

Chiral auxiliaries Michael addition

Chiral auxiliaries Nazarov cyclization

Chiral auxiliaries Pauson-Khand reaction

Chiral auxiliaries Pyrrolidines, 2,5-disubstituted

Chiral auxiliaries SAMP/RAMP method

Chiral auxiliaries Staudinger reaction

Chiral auxiliaries Strecker amino acid synthesis

Chiral auxiliaries TADDOLs

Chiral auxiliaries acetate

Chiral auxiliaries agents

Chiral auxiliaries aldols

Chiral auxiliaries alkylation

Chiral auxiliaries alkylations

Chiral auxiliaries amides

Chiral auxiliaries amination

Chiral auxiliaries amino acids

Chiral auxiliaries and catalysts

Chiral auxiliaries anions

Chiral auxiliaries asymmetric aldol reactions

Chiral auxiliaries asymmetric alkylations

Chiral auxiliaries asymmetric metathesis

Chiral auxiliaries asymmetric oxidation

Chiral auxiliaries binaphthyl diols

Chiral auxiliaries by l- -methyl ester

Chiral auxiliaries catalysis

Chiral auxiliaries chloromethylation

Chiral auxiliaries conjugate reactions

Chiral auxiliaries cyclocondensations

Chiral auxiliaries diastereoselective reactions

Chiral auxiliaries diastereoselective reductive

Chiral auxiliaries dioxaborolane

Chiral auxiliaries drug synthesis

Chiral auxiliaries electrophilic fluorination

Chiral auxiliaries enamines

Chiral auxiliaries enantioselective Michael addition

Chiral auxiliaries examples

Chiral auxiliaries for Diels-Alder reaction

Chiral auxiliaries glycosides

Chiral auxiliaries glycosylation

Chiral auxiliaries halides

Chiral auxiliaries hydrogenation

Chiral auxiliaries imine additions

Chiral auxiliaries in Diels—Alder reactions

Chiral auxiliaries in asymmetric Diels-Alder

Chiral auxiliaries in asymmetric Diels-Alder reaction

Chiral auxiliaries in enantioselective

Chiral auxiliaries lactate esters

Chiral auxiliaries lithium enolate aldol reaction

Chiral auxiliaries mandelate esters

Chiral auxiliaries mediator

Chiral auxiliaries nitron addition

Chiral auxiliaries nucleophile containing

Chiral auxiliaries nucleophilic substitution

Chiral auxiliaries organic synthesis

Chiral auxiliaries overview

Chiral auxiliaries oxazolines

Chiral auxiliaries pantolactone

Chiral auxiliaries phenylethyl

Chiral auxiliaries phenylethylamine

Chiral auxiliaries preparation

Chiral auxiliaries prolines

Chiral auxiliaries prolinol

Chiral auxiliaries reaction

Chiral auxiliaries reaction with benzaldehyde

Chiral auxiliaries recovery

Chiral auxiliaries reduction reactions

Chiral auxiliaries ring-closing metathesis strategy

Chiral auxiliaries stereo-differentiating reaction

Chiral auxiliaries stereoselective alkene cyclopropanation

Chiral auxiliaries substrate control

Chiral auxiliaries sugar

Chiral auxiliaries sulfinamides

Chiral auxiliaries sulfone synthesis

Chiral auxiliaries symmetric diamines

Chiral auxiliaries synthesis

Chiral auxiliaries tandem cycloaddition

Chiral auxiliaries thiazolidine derived

Chiral auxiliaries transesterification

Chiral auxiliaries, and

Chiral auxiliaries, diastereoface

Chiral auxiliaries, diastereoselectivity, asymmetric

Chiral auxiliaries, diastereoselectivity, asymmetric Michael additions

Chiral auxiliaries, diastereoselectivity, asymmetric alkenes

Chiral auxiliaries, diastereoselectivity, asymmetric cleavage

Chiral auxiliaries, diastereoselectivity, asymmetric cycloadditions

Chiral auxiliaries, diastereoselectivity, asymmetric facial selectivity

Chiral auxiliaries, diastereoselectivity, asymmetric intramolecular cycloadditions

Chiral auxiliaries, diastereoselectivity, asymmetric nitrile oxide cycloadditions

Chiral auxiliaries, diastereoselectivity, asymmetric reactions

Chiral auxiliaries, diastereoselectivity, asymmetric stereoselectivity

Chiral auxiliaries, nucleophilic addition

Chiral auxiliary (also

Chiral auxiliary (also 2-methoxymethyl pyrrolidine

Chiral auxiliary (also 2-phenylcyclohexanol

Chiral auxiliary (also 8-phenylmenthyl

Chiral auxiliary (also camphor sultam

Chiral auxiliary (also menthol-derived

Chiral auxiliary (also oxathiane

Chiral auxiliary (also oxazolidinone

Chiral auxiliary (also oxazoline

Chiral auxiliary (also pantolactone

Chiral auxiliary (also pyrrolidines

Chiral auxiliary aldol addition reactions

Chiral auxiliary aminoalcohol

Chiral auxiliary approach

Chiral auxiliary based approaches

Chiral auxiliary based approaches group

Chiral auxiliary based approaches reaction

Chiral auxiliary binaphthol

Chiral auxiliary camphorsultam

Chiral auxiliary carbohydrates

Chiral auxiliary cycloaddition

Chiral auxiliary cyclohexanol derivative

Chiral auxiliary enantioselective reactions

Chiral auxiliary lactate

Chiral auxiliary menthol

Chiral auxiliary menthone

Chiral auxiliary oxazolidinone

Chiral auxiliary oxazolidone derivative

Chiral auxiliary oxazoline

Chiral auxiliary prolinol derivative

Chiral auxiliary pumiliotoxin

Chiral auxiliary pyrrolidine derivative

Chiral auxiliary recycling

Chiral auxiliary sigmatropic rearrangements

Chiral auxiliary strategy

Chiral auxiliary sulfoxides

Chiral auxiliary, 14, (Chart

Chiral auxiliary, in asymmetric aldol reaction

Chiral auxiliary, organoboranes

Chiral auxiliary/reagent

Chiral compounds auxiliary removal

Chiral ferrocenylalkyl amines auxiliaries

Chiral oxazolidine auxiliaries

Chiral sulfinyl auxiliaries

Chiral, auxiliary compounds catalysts

Chiral-auxiliary direct separation

Claisen chiral auxiliary

Conjugate additions chiral auxiliaries

Conjugate chiral auxiliary

Cyclic Chiral Auxiliary

Cycloadditions chiral auxiliary

Cyclohexyl-based chiral auxiliaries

Cyclopropanations chiral auxiliaries

Cyclopropanations glucose chiral auxiliary

Deprotonations chiral auxiliaries

Diamines chiral auxiliary

Diastereofacial selectivity chiral auxiliaries

Diastereoselective Claisen Rearrangements Using Chiral Auxiliaries

Diastereoselective Diels-Alder Reactions Using Chiral Auxiliaries

Diastereoselective cycloaddition chiral auxiliaries

Diastereoselective synthesis chiral auxiliaries

Diastereoselectivity chiral auxiliaries

Diastereoselectivity chiral auxiliaries, drug synthesis

Diels chiral auxiliary

Diels-Alder Reactions Using Chiral Auxiliaries

Diels-Alder reaction chiral auxiliary-controlled

Diels-Alder reaction oxazolidinone chiral auxiliaries

Dipolar chiral auxiliaries

Dipolar diastereoselective with chiral auxiliary

ENANTIOMERICALLY PURE CHIRAL AUXILIARIES

EVANS Chiral auxiliary

Electrophiles bearing chiral auxiliaries

Enantiomeric chiral auxiliary

Enantiomers chiral auxiliaries, drug synthesis

Enantioselectivity with chiral auxiliaries

Enolate chiral auxiliary

Ephedrine-derived chiral auxiliaries

Esters as chiral auxiliaries

Ether compounds asymmetric reactions, chiral auxiliaries

Evan s chiral auxiliaries

Evans aldol reaction chiral auxiliary removal

Evans aldol reactions, oxazolidone chiral auxiliary

Evans asymmetric aldol reactions chiral auxiliaries

Evans’ oxazolidinone chiral auxiliarie

Facial selectivity due to a chiral auxiliary

Frontalin via chiral auxiliary

Glycosylamines as Auxiliaries in Stereoselective Syntheses of Chiral Amino Compounds

Glycosylations chiral auxiliary

Hetero-Diels—Alder reactions chiral auxiliaries

Imines chiral auxiliaries

Immolative process chiral auxiliaries

Ionic chiral auxiliaries

Ionic chiral auxiliaries synthesis

Isopinocampheyl: chiral auxiliary group

Ketones chiral auxiliaries

Ketones, ethyl titanium enolate, chiral auxiliary

Lewis Acids and Chiral Auxiliaries

Lewis acids chiral auxiliary

Malyngolide via chiral auxiliary

Mandelic acid derivatives chiral auxiliaries

Menthol as a Chiral Auxiliary

Michael addition, with chiral auxiliaries

Myers, pseudoephedrine chiral auxiliary

Natural products chiral auxiliary

Neighboring group participation chiral auxiliaries

Nitrile oxides achiral olefins, with chiral auxiliaries

Nitronates chiral auxiliaries

Nitrones chiral auxiliaries

Nucleophilic addition reactions chiral auxiliaries

Oppolzer’s chiral auxiliary

Organocyanoborane, as chiral auxiliaries

Organometallic compounds chiral auxiliaries

Other Chiral Auxiliaries

Other Heterobifunctional Chiral Auxiliaries

Oxazolidinethione and Oxazolidineselone Chiral Auxiliaries

Oxazolidinone, as chiral auxiliary

Oxazolidinones as chiral auxiliaries

Oxazolidinones, as chiral auxiliaries for

Oxazoline as chiral auxiliary

Pantolactone-based chiral auxiliaries

Pantolactone-based chiral auxiliaries Diels-Alder reaction

Pasteur resolution comparison with ionic chiral auxiliary

Phosphorus chiral auxiliary

Photochemical cycloadditions, chiral auxiliaries

Preparation of chiral auxiliaries

Proline prolinol-derived chiral auxiliaries

Prolines as chiral auxiliaries

Pulegone ketone chiral auxiliaries from

Pyranose-derived chiral auxiliaries

Pyrrolidines chiral auxiliaries

RAMP/SAMP hydrazone chiral auxiliary

Reactions of Substrates with Chiral Auxiliaries

Reversible chiral auxiliaries, asymmetric

Role as chiral auxiliary

SAMP/RAMP chiral auxiliaries

SAMP/RAMP chiral auxiliaries hydrazone formation

SAMP/RAMP chiral auxiliaries synthesis

Schollkopf chiral auxiliary

Singlet oxygen chiral auxiliaries

Stereochemistry chiral auxiliary

Stereodifferentiating reactions using chiral auxiliaries

Stereoselective Acetate Aldol Reactions Using Chiral Auxiliaries

Stereoselective chiral auxiliaries

Stereoselective glycosylations using chiral auxiliaries

Stereoselectivity chiral auxiliaries

Stereoselectivity chiral auxiliary approach

Study 6.21 Asymmetric synthesis in crystals application of chiral auxiliaries

Sugars cycloadditions, chiral auxiliaries

Sulfide chiral auxiliary

Sulfinamide chiral auxiliaries

Sulfoxides as chiral auxiliaries

Sulphinyl substituents, as chiral auxiliaries Diels-Alder reaction

Synthesis of Naproxen (Chiral Auxiliary Approach)

Synthesis of Optically Active syn Aldols Using Chiral Auxiliaries

TADDOL chiral auxiliaries

Terpenes Chiral auxiliary synthesis

The Chiral Auxiliary

Tin enolates chiral auxiliary

Titanium catalysts chiral auxiliaries

Transesterification chiral auxiliary reactions

Use as chiral auxiliaries

Use of a Chiral Auxiliary

Using chiral auxiliaries

Valine chiral auxiliary from

Zinc carbenoids chiral auxiliaries

© 2024 chempedia.info