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Baylis-Hillman reactions catalysts

Together with a shift of the proton from the a-carbon to the alkoxide oxygen, the tertiary amine is eliminated from the addition product to yield the unsaturated product 3. Early examples of the Baylis-Hillman reaction posed the problem of low conversions and slow reaction kinetics, which could not be improved with the use of simple tertiary amines. The search for catalytically active substances led to more properly adjusted, often highly specific compounds, with shorter reaction times." Suitable catalysts are, for example, the nucleophilic, sterically less hindered bases diazabicyclo[2.2.2]octane (DABCO) 6, quinuclidin-3-one 7 and quinuclidin-3-ol (3-QDL) 8. The latter compound can stabilize the zwitterionic intermediate through hydrogen bonding. ... [Pg.29]

Apart from tertiary amines, the reaction may be catalyzed by phosphines, e.g. tri- -butylphosphine or by diethylaluminium iodide." When a chiral catalyst, such as quinuclidin-3-ol 8 is used in enantiomerically enriched form, an asymmetric Baylis-Hillman reaction is possible. In the reaction of ethyl vinyl ketone with an aromatic aldehyde in the presence of one enantiomer of a chiral 3-(hydroxybenzyl)-pyrrolizidine as base, the coupling product has been obtained in enantiomeric excess of up to 70%, e.g. 11 from 9 - -10 ... [Pg.29]

The Baylis-Hillman reaction is usually carried out under mild conditions (0°C or room temperature). The reaction time varies from a few minutes to even days. With the proper catalyst, good yields are possible. In the absence of an aldehyde or ketone as the electrophilic component, a dimerization of the activated alkene can take place under the influence of the catalyst, as also observed as a side reaction under the usual reaction conditions ... [Pg.30]

Other catalysts have also been used. In aqueous media, imidazole was found to catalyze Baylis-Hillman reactions of cyclopent-2-enone... [Pg.331]

The asymmetric Baylis-Hillman reaction of sugar-derived aldehydes as chiral electrophiles with an activated olefin in dioxane water (1 1) proceeded with 36-86% de and in good yields of the corresponding glycosides (Eq. 10.47).104 The use of chiral /V-mcthylprolinol as a chiral base catalyst for the Baylis-Hillman reaction of aromatic aldehydes with ethyl acrylate or methyl vinyl ketone gave the adducts in good yields with moderate-to-good enantioselectivities in l,4-dioxane water (1 1, vol/vol) under ambient conditions.105... [Pg.333]

In this particular system, 4-nitrobenzaldehyde dimethyl acetal is deprotected by the acid catalyst, followed by the addition of methyl vinyl ketone (MVK) in an amine-catalyzed Baylis-Hillman reaction to give the product (Scheme 5.14). A yield of 65% for the final product was observed when the catalysts described in Scheme 5.13 were used, compared with no observed yield for the reaction with their soluble analogs. [Pg.146]

In the next step of the sequence, the authors sought to introduce a hydroxy-methylene substituent at the unsubstituted 7-position of the enone. This bond construction can be carried out by conducting a Baylis-Hillman reaction with formaldehyde. In this instance, the authors used a modification of the Baylis-Hillman reaction which involves the use of a Lewis acid to activate the enone [26]. Under these conditions, the enone 42 is treated with excess paraformaldehyde in the presence of triethylphosphine (1 equiv), lanthanum triflate (5 mol%), and triethanolamine (50 mol%). It is proposed that the lanthanum triflate forms a complex with the triethanolamine. This complex is able to activate the enone toward 1,4-addition of the nucleophilic catalysts (here, triethylphosphine). In the absence of triethanolamine, the Lewis acid catalyst undergoes nonproductive complexation with the nucleophilic catalyst, leading to diminution of catalysis. Under these conditions, the hydroxymethylene derivative 37 was formed in 70 % yield. In the next step of the sequence, the authors sought to conduct a stereoselective epoxidation of the allylic... [Pg.47]

Porco s synthesis of ( )-kinamycin C (3) constituted the first reported route to any of the diazofluorene antitumor antibiotics. This synthesis invokes several powerful transformations, including a modified Baylis-Hillman reaction, a catalyst-controlled asymmetric nucleophilic epoxidation, and a regioselective epoxide opening to establish the D-ring of the kinamycins. The tetracyclic skeleton was constructed by an... [Pg.50]

Chiral fe-thiourea-type catalysts effectively provide the Baylis Hillman reaction with cyclohexenone and aldehydes.181 In several reactions, thiourea derivatives have been used as significant and specific catalyst because of their intermolecular hydrogen bonding ability (Scheme 74).182 186... [Pg.172]

The Baylis-Hillman reaction (Scheme 3) of ethyl vinyl ketone with electron-deficient aromatic aldehydes (e.g. where R = 0-NO2C6H4), in MeCN or EtCN solution, has been found to proceed enantioselectively in presence of catalytic base (32) derived from proline. The Michael adduct formed between the catalyst and the vinyl... [Pg.357]

Conjugate Additions and Baylis-Hillman Reactions Peptide catalysts have reemerged as a viable approach to asymmetric catalysis. In particular, Miller... [Pg.333]

Scheme 51 Morita-Baylis-Hillman reaction using the dual catalysts 130 and 58... Scheme 51 Morita-Baylis-Hillman reaction using the dual catalysts 130 and 58...
The most efficient catalyst system for the Morita-Baylis-Hillman reaction of methyl vinyl ketone has been reported by Miller [183, 184], Use of L-proline (58) (10 mol%) in conjunction with the A-methyl imidazole containing hexapeptide 131 (10 mol%) provided an efficient platform for the reaction of 125 with a series of aromatic aldehydes 127 (52-95% yield 45-81% ee) (Scheme 52). Importantly, it was shown that the absolute configuration of the proline catalyst was the major factor in directing the stereochemical outcome of the reaction and not the complex peptide backbone. [Pg.321]

Intramolecular versions of the Morita-Baylis-Hillman reaction have also met with success using a dual Lewis acid/Lewis base catalyst system. Miller has shown that a combination of A-methyl imidazole (132) (10 mol%) and... [Pg.321]

Phosphonium salts have also been used as co-catalysts in the DABCO catalyzed Baylis-Hillman reaction of methyl acrylate with benzaldehyde [122]. Good results were obtained with triethyl-n-butylphosphonium tosylate with up to quantitative yields in some cases. The authors proposed that the phosphonium salt is rather stabilizing the intermediate 50, shown in Scheme 48, and increasing therefore its concentration rather than activating the benzaldehyde. [Pg.371]

Scheme 48 Phosphonium Salts as co-catalysts in the Baylis-Hillman reaction... Scheme 48 Phosphonium Salts as co-catalysts in the Baylis-Hillman reaction...
Ionic liquids have been also explored in the Baylis-Hillman reaction [204-206]. The application of the enantiopure ionic liquid 73 in the Baylis-Hilhnan reaction by Vo-Thanh [207] resulted in an enantiomeric excess of up to 44% with 1 equiv. of the Lewis base catalyst DABCO (Scheme 81). It was shown that it was essential to have a hydroxy group incorporated in the ionic liquid in order to obtain significant ee. [Pg.385]

The aldehyde can be replaced by an imine and the reaction is then called the aza-Baylis-Hillman reaction [87, 88]. (3-Amino-a-methylene structures obtained in this way could further be converted to a range of biologically important molecules, such as p-amino acids [89]. First reaction of this kind was published in 1984 [90]. Tosylimines and ethylacrylate reacted in the presence of DABCO as catalyst to give p-aminoesters. First three-component aza-Baylis-Hillman reaction was published in 1989 by Bertenshaw and Kahn [91], with imine formation in situ from an aldehyde and an amine. In the presence of triphenylphosphine as catalyst, the reaction with methylacrylate led to the formation of the p-amino-ot-methylene esters and ketones in good yields (Scheme 38). [Pg.191]

In the proposed mechanism (Scheme 9), the rate-determining step is the reaction between aldehyde and enolate. In the absence of a solvent, a major issue with this reaction is the typical low rate and the need for a high concentration of catalyst (usually DABCO). It was reported recently that, under basic conditions, the ionic liquid [BDMIM][PF6] is inert and that the Baylis Hillman reaction in [BDMIMjPFg proceeds smoothly with better yields than in [BMIMjPFg (163). [Pg.191]

Baylis-Hillman reactions, the protonated amine was the governing factor in determining catalyst efficiency, thus making quinuclidine itself a better catalyst than 3-heteroatom substituted analogs, which are of reduced basicity/nucleophilic-ity and consequently give lower reaction rates. [Pg.177]

P-Amino carbonyl compounds containing an a-atkyUdene group are densely functionalized materials, which are widely applied in the synthesis of medicinal reagents and natural products [265]. These products are usually prepared through the classic aza-Morita-Baylis-Hillman reaction [176, 177] of activated imines and electron-deficient alkenes catalyzed by tertiary amines or phosphines. Chen and co-workers, in 2008, identified bis-thiourea 106 as a suitable catalyst for the... [Pg.250]

The enol ethers generated in situ by the addition of ethanol to l,4-pentadiyn-3-ones are cyclised to the 4/f-chalcogenopyran-4-ones on treatment with disodium chalcogenides (Scheme 40) <99JHC707>. The 2,6-diphenyl derivatives are useful catalysts for the Baylis-Hillman reaction <99TL3741>. [Pg.332]

There has been a continuing effort to make the Baylis-Hillman reaction a catalytic asymmetric process. Scott Schnauss of Boston University recently reported (J. Am. Chem. Soc. 125 12094, 2003) an elegant solution to this problem, based on the use of Binol-derived Bronsted acids as catalysts. The product hydroxy enones such as 6 are interesting in themselves, and also as substrates for further transformation, for instance by Claisen rearrangement. [Pg.38]

A study of the effect of the Michael acceptor configuration on the efficiency of intramolecular Morita-Baylis-Hillman reactions has been performed. Enones containing a pendant aldehyde moiety attached at the -position of the alkene group were employed as substrates and the reactions were catalysed by a phosphine. In all cases examined, with Ph3P as the catalyst, cyclization of (Z)-alkene (117) gave 2.5-8.5 times higher yield than with the E-isomer (115) under identical reaction conditions, both affording the same product (116). Steric effects are believed to be the source of this difference in reactivity.172... [Pg.350]

Asymmetric aza Morita-Baylis-Hillman reactions of N-sulfonylimines or N-sulfinimines with Michael accepters in the presence a Lewis base catalyst to give the corresponding chiral a-methylene-/ -amino compounds have been described [27]. [Pg.286]

Balan and Adolfsson [28] reported a direct catalytic enantioselective three-component aza Baylis-Hillman reaction between arylaldehydes, tosylamides, and Michael acceptors using the quinidine-based Hatekayama catalyst 96 [29] together with titanium isopropoxide as a Lewis acid cocatalyst (Scheme 9.18). High chemical yields and stereoselectivity ranging between 49 and 74% ee were obtained using various substituted arylaldehydes. [Pg.288]

Baylis-Hillman reactions of benzaldehyde and its 2-nitro derivative with o /3-unsaturated esters and nitriles have been carried out in water at pH 1 (T = 0 or 25 °C), with tertiary amine catalysts.169... [Pg.20]

An air-stable ferrocenyl-dialkylphosphine is an effective catalyst for the Baylis-Hillman reaction chiral analogues have also been developed to render it enantioselec-tive.171... [Pg.20]

An NMR kinetic study of a phosphine-catalysed aza-Baylis-Hillman reaction of but-3-enone with arylidene-tosylamides showed rate-limiting proton transfer in the absence of added protic species, but no autocatalysis.175 Brpnsted acids accelerate the elimination step. Study of the effects of BINOL-phosphinoyl catalysts sheds light not only on the potential for enantioselection with such bifunctional catalysis, but also on their scope for catalysing racemization. [Pg.21]

Studies on catalytic asymmetric aza-Baylis-Hillman reaction has shown that the reaction involves rate-limiting proton transfer in the absence of added protic species, but exhibits no autocatalysis.41 Brpnsted acidic additives lead to substantial rate enhancements through acceleration of the elimination step. Furthermore, it has been found that phosphine catalysts, either alone or in combination with protic additives, can cause racemization of the aza-Baylis-Hillman product by proton exchange at the stereogenic centre. [Pg.256]

Michael-aldol reaction as an alternative to the Morita-Baylis-Hillman reaction 14 recent results in conjugate addition of nitroalkanes to electron-poor alkenes 15 asymmetric cyclopropanation of chiral (l-phosphoryl)vinyl sulfoxides 16 synthetic methodology using tertiary phosphines as nucleophilic catalysts in combination with allenoates or 2-alkynoates 17 recent advances in the transition metal-catalysed asymmetric hydrosilylation of ketones, imines, and electrophilic C=C bonds 18 Michael additions catalysed by transition metals and lanthanide species 19 recent progress in asymmetric organocatalysis, including the aldol reaction, Mannich reaction, Michael addition, cycloadditions, allylation, epoxidation, and phase-transfer catalysis 20 and nucleophilic phosphine organocatalysis.21... [Pg.288]


See other pages where Baylis-Hillman reactions catalysts is mentioned: [Pg.265]    [Pg.318]    [Pg.330]    [Pg.379]    [Pg.285]    [Pg.320]    [Pg.305]    [Pg.838]    [Pg.161]    [Pg.163]    [Pg.12]    [Pg.204]    [Pg.350]    [Pg.20]    [Pg.256]   
See also in sourсe #XX -- [ Pg.501 , Pg.502 ]




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