Diels-Alder reaction Lewis acid promoted

Similar to the Diels-Alder reaction, Lewis acid-catalyzed approaches were applied to intra- and intermolecular ene reactions, which served to diminish the temperatures required to promote the reaction and improved the selectivity. For example, reaction of 2-Me-2-propene with methyl propiolate provided a mixture of 24 and 25 at 220 °C, but proved higher yielding and more regioselective providing exclusively 24 when a Lewis acid was used. ... 

A combination of the promoting effects of Lewis acids and water is a logical next step. However, to say the least, water has not been a very popular medium for Lewis-acid catalysed Diels-Alder reactions, which is not surprising since water molecules interact strongly with Lewis-acidic and the Lewis-basic atoms of the reacting system. In 1994, when the research described in this thesis was initiated, only one example of Lewis-acid catalysis of a Diels-Alder reaction in water was published Lubineau and co-workers employed lanthanide triflates as a catalyst for the Diels-Alder reaction of glyoxylate to a relatively unreactive diene . No comparison was made between the process in water and in organic solvents. 

First of all, given the well recognised promoting effects of Lewis-acids and of aqueous solvents on Diels-Alder reactions, we wanted to know if these two effects could be combined. If this would be possible, dramatic improvements of rate and endo-exo selectivity were envisaged Studies on the Diels-Alder reaction of a dienophile, specifically designed for this purpose are described in Chapter 2. It is demonstrated that Lewis-acid catalysis in an aqueous medium is indeed feasible and, as anticipated, can result in impressive enhancements of both rate and endo-exo selectivity. However, the influences of the Lewis-acid catalyst and the aqueous medium are not fully additive. It seems as if water diminishes the catalytic potential of Lewis acids just as coordination of a Lewis acid diminishes the beneficial effects of water. Still, overall, the rate of the catalysed reaction... 

With few exceptions chiral Lewis acids are usually moisture-sensitive and require anhydrous conditions, but bench-stable aquo complexes such as [Cu(S,S)-t-Bu-box)(H20)2](SbF6)2 were found to promote the Diels-Alder reaction as effectively as the anhydrous copper reagent. 

Shibasald et al. reported that lithium-containing, multifunctional, heterobimetallic catalysts such as LaLi3tris((l )-6,6 -dibromobinaphthoxide) 35, with moderate Lewis acidity in non-polar solvents, promote the asymmetric Diels-Alder reaction to give cycloadducts in high optical purity (86% ee) [53] (Scheme 1.67). The lithium... 

In all the reactions described so far a chiral Lewis acid has been employed to promote the Diels-Alder reaction, but recently a completely different methodology for the asymmetric Diels-Alder reaction has been published. MacMillan and coworkers reported that the chiral secondary amine 40 catalyzes the Diels-Alder reaction between a,/ -unsaturated aldehydes and a variety of dienes [59]. The reaction mechanism is shown in Scheme 1.73. An a,/ -unsaturated aldehyde reacts with the chiral amine 40 to give an iminium ion that is sufficiently activated to engage a diene reaction partner. Diels-Alder reaction leads to a new iminium ion, which upon hydrolysis af-... 

The discovery that Lewis acids can promote Diels-Alder reactions has become a powerful tool in synthetic organic chemistry. Yates and Eaton [4] first reported the remarkable acceleration of the reactions of anthracene with maleic anhydride, 1,4-benzoquinone and dimethyl fumarate catalyzed by aluminum chloride. The presence of the Lewis-acid catalyst allows the cycloadditions to be carried out under mild conditions, reactions with low reactive dienes and dienophiles are made possible, and the stereoselectivity, regioselectivity and site selectivity of the cycloaddition reaction can be modified [5]. Consequently, increasing attention has been given to these catalysts in order to develop new regio- and stereoselective synthetic routes based on the Diels-Alder reaction. 

The 2-pyrones can behave as dienes or dienophiles depending on the nature of their reaction partners. 3-Carbomethoxy-2-pyrone (84) underwent inverse Diels-Alder reaction with several vinylethers under lanthanide shift reagent-catalysis [84] (Equation 3.28). The use of strong traditional Lewis acids was precluded because of the sensitivity of the cycloadducts toward decarboxylation. It is noteworthy that whereas Yb(OTf)j does not catalyze the cycloaddition of 84 with enolethers, the addition of (R)-BINOL generates a new active ytterbium catalyst which promotes the reactions with a moderate to good level of enantio selection [85]. 

It is believed that clay minerals promote organic reactions via an acid catalysis [2a]. They are often activated by doping with transition metals to enrich the number of Lewis-acid sites by cationic exchange [4]. Alternative radical pathways have also been proposed [5] in agreement with the observation that clay-catalyzed Diels-Alder reactions are accelerated in the presence of radical sources [6], Montmorillonite K-10 doped with Fe(III) efficiently catalyzes the Diels-Alder reaction of cyclopentadiene (1) with methyl vinyl ketone at room temperature [7] (Table 4.1). In water the diastereoselectivity is higher than in organic media in the absence of clay the cycloaddition proceeds at a much slower rate. 

The coupling photolysis Lewis acid is also sometimes effective in promoting a Diels-Alder reaction. Thus, cationic (R,S)-(ON)Ru-salen homochiral complex 71 catalyzed the Diels-Alder reaction between Danishefsky s diene and benzaldehyde when the reagents were exposed to direct sunlight through a window or to incandescent light in t-butyl methyl ether (TBME)[49] (Equation 4.8). The reaction in the dark was very slow and only 3 % ee was detected. 

The ene reaction of fuUerene (C o) with 3-methylene-2,3-dihydrofuran gives an easily isolated addition product in good yield <96JOC2559>. There is a continuous need for chiral acrylate esters for asymmetric Diels-Alder reactions with high diastereoselectivity. Lewis acid promoted Diels-Alder reactions of acrylate esters from monobenzylated isosorbide 28 (or isomannide) and cyclopentadiene provided exclusively e db-adducts with good yields and high diastereoselectivity <96TL7023>. 

On the other hand, several examples of chiral sulfonamides derived from ehiral a-amino acids have been successfully employed as ligands for enantio-seleetive Diels-Alder reactions. Thus, Yamamoto and Takasu have easily prepared new chiral Lewis acids from borane and sulfonamides of various ehiral a-amino acids, which were further studied for their abilities to promote the enantioselective Diels-Alder reaction between methacrolein and 2,3-dime-thyl-1,3-butadiene. Since 2,4,6-triisopropylbenzenesulfonamide of a-amino-butyric acid gave the highest enantioseleetivity, this eatalyst was applied to the... 

The hetero Diels -Alder reaction is a useful method for constructing six-membered ring systems containing hetero-atoms. TiIV compounds with mild Lewis acidity promote the reactions well (Scheme 26) " it has been proposed that these reactions proceed via a concerted pathway."... 

The chemistry and utility of zinc-based Lewis acids are similar to those of their magnesium analogs. Their mild Lewis acidity promotes several synthetic reactions, such as Diels-Alder reactions, hetero Diels-Alder reactions,229 radical-mediated reactions,230 ene-type cyclization, and Simmons-Smith reactions. 

The thermally and Lewis acid-promoted transannular Diels-Alder reactions have proven to be a powerful tool for the synthesis of steroids and other natural products [24]. A research team led by Takamura, Arimoto, and Uemura utilized this reaction to assemble the polycyclic skeleton of nakiterpiosin (1) [25]. Heating macrolide 39 at 160 °C gave 40 and 41 as a mixture of diastereomers in good yields. 

Annual Volume 71 contains 30 checked and edited experimental procedures that illustrate important new synthetic methods or describe the preparation of particularly useful chemicals. This compilation begins with procedures exemplifying three important methods for preparing enantiomerically pure substances by asymmetric catalysis. The preparation of (R)-(-)-METHYL 3-HYDROXYBUTANOATE details the convenient preparation of a BINAP-ruthenium catalyst that is broadly useful for the asymmetric reduction of p-ketoesters. Catalysis of the carbonyl ene reaction by a chiral Lewis acid, in this case a binapthol-derived titanium catalyst, is illustrated in the preparation of METHYL (2R)-2-HYDROXY-4-PHENYL-4-PENTENOATE. The enantiomerically pure diamines, (1 R,2R)-(+)- AND (1S,2S)-(-)-1,2-DIPHENYL-1,2-ETHYLENEDIAMINE, are useful for a variety of asymmetric transformations hydrogenations, Michael additions, osmylations, epoxidations, allylations, aldol condensations and Diels-Alder reactions. Promotion of the Diels-Alder reaction with a diaminoalane derived from the (S,S)-diamine is demonstrated in the synthesis of (1S,endo)-3-(BICYCLO[2.2.1]HEPT-5-EN-2-YLCARBONYL)-2-OXAZOLIDINONE. 

At ambient pressure, 195a did not undergo intramolecular [4 + 2] cycloaddition even at temperatures up to 150°C. The use of Lewis acids to promote the Diels-Alder reactions was of marginal success only. In contrast, on exposing the furan derivatives 195 to high pressure (10kbar) in 0.1-0.5 moll-1 solutions at 60-70°C, a clean cycloaddition took place (Table 18). 

When aldehyde containing an electron-withdrawing group is employed, or when a Lewis acid promoter is present, C=0 double bonds can readily undergo Diels-Alder-type reactions. This process is referred to as the oxo Diels-Alder reaction, and it has been explored by Danishefsky and DeNinno35 for the synthesis of a wide range of saccharide derivatives. 

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