Hydroxy aldehydes benzaldehyde

In 1949, Comforth showed that preparation of 2,5-disubstituted oxazoles was not limited to diaryloxazoles through condensation of aldehydes (benzaldehyde, n-hept-aldehyde) with a-hydroxy-amides (lactamide). The intermediate oxazolidone 13 were converted into oxazoles 14 on warming with phosphoryl chloride. ... 

The aldol reaction is a carbonyl condensation that occurs between two aldehyde or ketone molecules. Aldol reactions are reversible, leading first to a /3-hydroxy aldehyde or ketone and then to an cr,/6-unsaturated product. Mixed aldol condensations between two different aldehydes or ketones generally give a mixture of all four possible products. A mixed reaction can be successful, however, if one of the two partners is an unusually good donor (ethyl aceto-acetate, for instance) or if it can act only as an acceptor (formaldehyde and benzaldehyde, for instance). Intramolecular aldol condensations of 1,4- and 1,5-diketones are also successful and provide a good way to make five-and six-inembered rings. 

This method has an analogy in the well known acyloin condensation, a reaction which takes place between two molecules of an aromatic aldehyde in a solution containing an alkali cyanide. Thus for example, benzaldehyde gives rise to benzoin, a compound in which the enediolic system, —C(OH)=C(OH)—, exists mainly in the ketonic form —CO—CHOH—. If a hydroxy aldehyde like D-glucose (X) is allowed to... 

Reaction of 4-(pivaloyloxy)benzaldehyde with the E -crotyldiisopinocampheylbo-rane d19E gave the corresponding homoallylic alcohol 22 in a 98 2 enantiomeric ratio. After protection of the alcohol as a tert-butyldiphenylsilyl (TBDPS) ether, the alkene was subjected to ozonolysis to provide the 3-hydroxy aldehyde 23. 

Enantioselective additions of dialkylzincs to 4-(diethoxymethyl)benzaldehyde, 3-pyridinecarbaldehyde, terephthalyl aldehyde, and 2-bromobenzaldehyde using DBNE as a chiral catalyst afford, after appropriate treatment, optically active hydroxy aldehydes, pyridyl alcohols (eq 17), diols (eq 18), and 3-alkylphthalides (eq 19), respectively, with high ee. 

Upon treating certain (but not all) aromatic aldehydes or glyoxals (a-keto aldehydes) with cyanide ion (CN ), benzoins (a-hydroxy-ketones or acyloins) are produced in a reaction called the benzoin condensation. The reverse process is called the retro-benzoin condensation, and it is frequently used for the preparation of ketones. The condensation involves the addition of one molecule of aldehyde to the C=0 group of another. One of the aldehydes serves as the donor and the other serves as the acceptor. Some aldehydes can only be donors (e.g. p-dimethylaminobenzaldehyde) or acceptors, so they are not able to self-condense, while other aldehydes (benzaldehyde) can perform both functions and are capable of self-condensation. Certain thiazolium salts can also catalyze the reaction in the presence of a mild base. This version of the benzoin condensation is more synthetically useful than the original procedure because it works with enolizable and non-enolizable aldehydes and asymmetric catalysts may be used. Aliphatic aldehydes can also be used and mixtures of aliphatic and aromatic aldehydes give mixed benzoins. Recently, it was also shown that thiazolium-ion based organic ionic liquids (Oils) promote the benzoin condensation in the presence of small amounts of triethylamine. The stereoselective synthesis of benzoins has been achieved using chiral thiazolium salts as catalysts. 

Recently, Kobayashi and co-workers reported an interesting variant for the synthesis of homoallylic amines, dubbed an ammonia fixation reaction [128]. With this method, allylboronates are reacted with aldehydes in a solution of ethanolic ammonia. Despite the highly basic conditions, optically pure protected a-hydroxy aldehydes such as 89 can be employed without any observed racemization, and this approach was apphed to the synthesis of aminosugar derivatives via aminoalcohol product 90 (Equation 47). Unfortunately, the addition of a chiral camphor-based allylboronate to benzaldehyde led only to a low enantioselectivity (34% ee). Reactions with the ( )- and (2)-pinacol crotylboronates lead to the same diastereoselectivity seen in the corresponding reactions with aldehydes, affording the respective anti and syn products from a reaction mechanism that most likely involves the intermediacy of primary imines. 

Peroxides are usually used to oxidize aldehydes to aryl formates. In the case of hydroxy aldehydes, hydrogen peroxide under basic conditions is the most suitable oxidant [175]. With benzaldehydes and aromatic aldehydes bearing alkoxy groups, use of hydrogen peroxide catalyzed by selenium derivatives [176] or performance of the reaction under acidic conditions [177] gives better results. Peracids, and in particular... 

The Reformatsky Reaction consists of the interaction of an ester of an a-halogeno-acid with an aldehyde, a ketone or another ester in the presence of zinc. For example, if a mixture of ethyl bromoacetate and benzaldehyde is heated with zinc, the latter undoubtedly first combines with the ethyl bromoacetate to form a Grignard-like reagent (reaction A), which then adds on to the benzaldehyde Just as a Grignard reagent would do (reaction B). The complex so formed, on acidification gives ethyl p-phenyl-p-hydroxy-propionate (reaction C). Note that reaction A could not satisfactorily be carried out using... 

The acid catalyzed condensation of benzaldehydes with 2-acetyIpyridine provides access to hydroxy- or amino-indolizines (Scheme 58a) (71CB1629,71CB1645). A remarkable synthesis of fused pyrrolidines in which aldehydes also provide C-2 is exemplified in Scheme 58b... 

Further substitution of benzoic acid leads to a drug with antiemetic activity. Alkylation of the sodium salt of p-hydroxy-benzaldehyde (8) with 2-dimethylaminoethyl chloride affords the so-called basic ether (9). Reductive amination of the aldehyde in the presence of ammonia gives diamine, 10. Acylation of that product with 3,4,5-trimethoxybenzoyl chloride affords trimetho-benzamide (11). ... 

The 1,3-oxathiane 8, derived from (5)-l,2,4-butanetriol, is lithiated to form the equatorial anion 9, which adds benzaldehyde with high induced but moderate simple diastereoselectivity (4 1) to form the alcohols 10 and 1117. The selectivity is enhanced to 7 1 by metal exchange by means of magnesium bromide. Deprotection affords (5)-2-hydroxy-l,2-diphenylethanone with 75% ee. It is expected that the method could be extended to aliphatic aldehydes. 

As an extension of this work, the same authors explored such methodology for the synthesis of 2,6-disubstituted dihydropyrans using secondary homopropargylic alcohols (Scheme 10, route E). Surprisingly, the treatment of pent-4-yn-2-ol and 3-methylbutanal in the presence of FeCls led to unsaturated ( )-(3-hydroxyketone and ( )-a,p-unsaturated ketone in 2.5 1 ratio and 65% yield, without any trace of the expected Prins-type cyclic product (Scheme 22) [36]. To test the anion influence in this coupling, FeCE and FeBrs were used in a comparative study for the reaction of pent-4-yn-2-ol (R = R" = H, = Me) and several aldehydes. A range of aldehydes except for benzaldehyde was transformed into unsaturated (3-hydroxy-ketones in moderate to good yields. 

On the other hand, several S/O ligands have been successfully applied to the enantioselective addition of ZnEt2 to aldehydes. As an example, Aral et al. have developed isoborneol-derived p-hydroxy-sulfide ligands and employed them in the enantioselective addition of ZnEt2 to benzaldehyde, providing enantio-selectivities of up to 88% ee (Scheme 3.54). These authors showed that the enantioselectivity of the reaction did not depend on the substituent of the sulfur atom. 

The Hall group [52] has developed a new three-component domino reaction of 1-aza-4-borono-1,3-butadiene 4-152, a dienophile and an aldehyde to give a-hydroxy-methylpiperidine derivatives. In the first step, a hetero-Diels-Alder reaction takes place, which is followed by allylboration. As an example, reaction of 4-152 with the maleimide 4-153 in the presence of benzaldehyde furnished 4-154 in yields of up to 80% using the three substrates in a 1 2 1 ratio (Scheme 4.32). 

Fluorine-containing compounds can also be synthesized via enantioselective Reformatsky reaction using bromo-difluoroacetate as the nucleophile and chiral amino alcohol as the chiral-inducing agent.86 As shown in Scheme 8-41, 1 equivalent of benzaldehyde is treated with 3 equivalents of 111 in the presence of 2 equivalents of 113, providing a,a-difluoro-/ -hydroxy ester 112 at 61% yield with 84% ee. Poor results are observed for aliphatic aldehyde substrates. For example, product 116 is obtained in only 46% ee. 

Fig. 12. Electroenzymatic oxidation of p-cresol under catalysis by PCMH in. long-time batch electrolysis under formation of p-hydroxy benzylalcohol (alcohol) and p-b. .roxy benzaldehyde (aldehyde) (PCMH 16 U = 5.6 nmol PEG-20000 ferrocene 3 0.51 mmr - 9.45 pmol ferrocene starting concentration of p-cresol 41.25 mM = 0.66 mmol additions o. substrate after 4140 min (0,0925 mmol), 5590 min (0.0784 mmol), 6630 min (0.184 mmol), 11253 min (0.371 mmol), in 10 ml tris/HCl-buffer of pH 7.6 divided cell Sigraflex-anode 26 cm2)...

The examples of compounds showing geometrical isomerism and having >C=N- structure are afforded by the oximes of aldehydes and ketones. Benzaldoxime, prepared by the action of hydroxy-lamine or benzaldehyde exists in the two forms. 

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