Aldehydes allylation reactions

Aryl or alkenyl halides attack the central carbon of the allene system in the 2,3-butadien-l-ol 120 to form the 7r-allyl intermediate 121, which undergoes elimination reaction to afford the o,/3-unsaturated ketone 122 or aldehyde. The reaction proceeds smoothly in DMSO using dppe as a ligandflOl]. 

This reaction illustrates a stereoselective preparation of (Z)-vinylic cuprates, which are very useful synthetic intermediates. They react with a variety of electrophiles such as carbon dioxide, epoxides, aldehydes, allylic halides, alkyl halides, and acetylenic halides they undergo... 

An extension of the asymmetric condensation of organometallics onto aldehydes is the enantioselective silver-promoted allylation reaction of aldehydes with allyltributyltin, which has recently been performed by Shi et al. in the presence of chiral diphenylthiophosphoramide ligands and more efficiently, with binaphthylthiophosphoramide ligands. According to the nature of the ligand substituents, the corresponding allylation products were obtained in enantioselectivities of up to 98% ee, as depicted in Scheme 3.70. 

The allylation reaction has been extended to enantiomerically pure allylic boranes and borinates. For example, the 3-methyl-2-butenyl derivative of (Ipc)2BH reacts with aldehydes to give carbinols of greater than 90% e.e. in most cases.39... 

The stereochemistry was controlled by Lewis acid-induced addition of these allylic silanes to aldehydes. The reaction of the silane with O-protected (S)-3-hydroxy-2-methylpropanal provides 15. The silane reacted with the benzyl-protected analog to provide 16. 

A new method has been developed for the synthesis of ( )-3-methyl Baylis-Hillman-type adducts with high E/Z (>93%) selectivity in modest to good yields. The process consists of two steps an indium-mediated allylation reaction and a simple base-catalyzed isomerization step (Eq. 8.61). Various aldehydes were allylated with allyl bromides using indium under very mild conditions in aqueous media and thus converted to the Baylis-Hillman-type adducts.150... 

Si. rra(pentafluorophenyl)boron was found to be an efficient, air-stable, and water-tolerant Lewis-acid catalyst for the allylation reaction of allylsilanes with aldehydes.167 Sc(OTf)3-catalyzed allylations of hydrates of a-keto aldehydes, glyoxylates and activated aromatic aldehydes with allyltrimethylsilane in H2O-CH3CN were examined. a-Keto and a-ester homoallylic alcohols and aromatic homoallylic alcohols were obtained in good to excellent yields.168 Allylation reactions of carbonyl compounds such as aldehydes and reactive ketones using allyltrimethoxysilane in aqueous media proceeded smoothly in the presence of 5 mol% of a CdF2-terpyridine complex (Eq. 8.71).169... 

Cd. Cadmium perchlorate was found to catalyze allylation reactions using allyltributyltin in aqueous media very efficiently.177 These cadmium-catalyzed allylation reactions are accelerated by ligands such as N, N, N, N", A -pentamethyldicthylcnetri amine or 2,9-dimethylphenanthroline (Eq. 8.75). This accelerated the catalytic system to give allylation products of various aldehydes and ketones in high yields. 

Hg. Allylmercury bromide and diallylmercury are both stable in water. They can allylate aldehydes in aqueous media but, in the case of allylmercury bromide, activation with tetrahexylammonium bromide was necessary.186 The allylation reaction is chemoselective towards aldehyde on the contrary, ketone compounds are unaffected. 

Fe. Iron metal was found to be able to mediate the allylation reactions of aryl aldehydes with allyl bromide using sodium fluoride as the promoter. The formation of an allyliron species was proposed as the reactive intermediate in the reaction (Scheme 8.20).187 In view of... 

Asymmetric Allylation. One of the recent new developments on this subject is the asymmetric allylation reaction. It was found that native and trimethylated cyclodextrins (CDs) promote enantiose-lective allylation of 2-cyclohexenone and aldehydes using Zn dust and alkyl halides in 5 1 H2O-THF. Moderately optically active products with ee up to 50% were obtained.188 The results can be rationalized in terms of the formation of inclusion complexes between the substrates and the CDs and of their interaction with the surface of the metal. 

By using allylation reaction of aldehydes with chiral allylic boronate A in Scheme 52, Lebreton synthesized (R)-35 and (S)-34 via ( )-B and (S)-C, respectively [78]. 

Trimethylsilyl triflate itself can not promote allylation reactions of aldehydes with allyltri-methylsilane. By using the more highly reactive system Me3SiB(OTf)4, the reactions proceed smoothly.326 A very small amount (0.2-1 mol.%) of Me3SiB(OTf)4 is enough for the reactions (Scheme 75). Allylation of acetals can be promoted by trimethylsilyl bis(trifluoromethanesulfo-nyl)imide (Me3SiNTf2),327 which is also a reactive catalyst for Diels Alder reactions.328... 

Several methods and reaction pathways have been reported for the conversion of glycerol in the literature, such as etherification, esterification [1], and oxidation [2], Via ionic dehydration acetol [3] and acrolein can be produced. The radical steps result in aldehydes, allyl alcohol, etc. [4], If the dehydration is followed by a hydrogenation step, propanediols (1,2- or 1,3-) can be obtained [5-6]. 

In 2001, the preparation of allylytterbium bromide and the synthesis of homoallylic alcohols using allylytterbium bromide were reported.39 393 Ytterbium metal was found to be activated by a catalytic amount of Mel at 0 °C in THF to produce allylytterbium bromide 66 (Equation (11)). The allylation reaction of a wide range of aromatic aldehydes and ketones proceeded at ambient temperature or less in good to high yields (Table 2). Imines also reacted with allylytterbium bromide to afford homoallyl amines (Table 3). 

Kondo and Watanabe developed allylations of various types of aldehydes and oximes by using nucleophilic (7r-allyl)ruthenium(ll) complexes of type 154 bearing carbon monoxide ligands (Equation (29)).345 These 73-allyl-ruthenium complexes 154 are ambiphilic reagents and the presence of the carbon monoxide ligands proved to be essential to achieve catalytic allylation reactions. Interestingly, these transformations occur with complete regioselectivity only the more substituted allylic terminus adds to the aldehyde. 

As the t-butyl group can readily be removed upon acidic or basic hydrolysis, this method can also be used for //-hydroxyl acid synthesis. In analogy with allylation reactions, the enolate added preferentially to the Re-face of the aldehydes in aldol reactions. Titanium enolate 66 tolerates elevated temperatures, while the enantioselectivity of the reaction is almost temperature independent. The reaction can be carried out even at room temperature without significant loss of stereoselectivity. We can thus conclude that this reaction has the following notable advantages High enantiomeric excess can be obtained (ee > 90%) the reaction can be carried out at relatively high temperature the chiral auxiliary is readily available and the chiral auxiliary can easily be recovered.44... 

The asymmetric induction cannot be explained simply by steric interaction because the R group in the aldehyde is far too remote to interact with the tartrate ester. In addition, the alkyl group present in the tartrate ligand seems to have a relatively minor effect on the overall stereoselectivity. It has thus been proposed that stereoelectronic interaction may play an important role. A more likely explanation is that transition state A is favored over transition state B, in which an n n electronic repulsion involving the aldehyde oxygen atom and the /Mace ester group causes destabilization (Fig. 3-6). This description can help explain the stereo-outcome of this type of allylation reaction. 

Ti-BINOL-catalyzed reactions have been well established. When the Ti is replaced by Zr,92 the resulting complex 140 can also catalyze the addition of allyl-tributyltin to aldehydes (aldehydes allyl-tributyltin 140 = 1 2 0.2 mol ratio) in the presence of 4 A MS. Product l-alken-4-ols are obtained in good yield and high ee. The, Sz-face of the aldehyde is attacked if (S)-BINOL is used, and Re-face attack takes place when (K)-BINOL is used as the chiral ligand. For Zr complex-catalyzed reactions, the reaction proceeds much faster, although the... 

If the alkenes and acetylenes that are subjected to the reaction mediated by 1 have a leaving group at an appropriate position, as already described in Eq. 9.16, the resulting titanacycles undergo an elimination (path A) as shown in Eq. 9.58 [36], As the resulting vinyltitaniums can be trapped by electrophiles such as aldehydes, this reaction can be viewed as an alternative to stoichiometric metallo-ene reactions via allylic lithium, magnesium, or zinc complexes (path B). Preparations of optically active N-heterocycles [103], which enabled the synthesis of (—)-a-kainic acid (Eq. 9.59) [104,105], of cross-conjugated trienes useful for the diene-transmissive Diels—Alder reaction [106], and of exocyclic bis(allene)s and cyclobutene derivatives [107] have all been reported based on this method. 

S. Kobayashi, T. Wakabayashi, H. Oyamada, Use of an Organometallic Reagent in Water Sc(OTf)3-Catalyzed Allylation Reactions of Aldehydes in Micellar Systems Chem. Lett. 1997, 831-832. 

Lallemand et al. have found a pericyclic-anionic domino three-component reaction to prepare highly functionalized alcohols.115931 This reaction was originally developed by Vaultier, Hoffmann et al.[59bl Diels-Alder reaction of a 1,3-dienylboronate with an acrylate yields a mixture of endo and exo diastereomers of the coupled allylboronate, which in the presence of an aldehyde such as 4-phenoxy-butyraldehyde undergoes an allylation reaction. After hydrolysis the resulting diastereomeric alcohols are obtained in about 50 % yield, whereby two new stereogenic centers are formed in a stereoselective fashion. 

Allylsilanes and allylboranes are allyl anion equivalents, which are stable enough to be included in subsequent allylation reactions of aldehydes under... 

CATALYTIC ASYMMETRIC ALLYLATION REACTIONS WITH OTHER ALDEHYDES... 

Allylations do not work for unprotected aldehydes, and reactions with (20) have only been reported for acetals of aromatic aldehydes [33]. For... 

In addition, Iseki et al. reported a highly enantioselective allylation reaction with ahphatic and unconjugated aldehydes. They used chiral DMF derivatives and observed a dramatic increase in the yield and enantioselectivity of the reaction, when a stoichiometric amount of HMPA was employed [57, 58]. 

Furthermore, next to aldehydes, acylhydrazones have been used in the allylation reaction. Kobayashi and coworkers found that achiral phosphineoxides catalyze the allylation of acylhydrazone [71, 72], Next, a method for an asymmetric allylation of iV-acylhydrazone with chiral BINAP dioxide 30 was developed... 

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