Formic acid reaction with alcohols

The procedure for getting the polymer-bound ligands is very easy to reproduce. Three jS-functionalized aromatic ketones were successfully reduced to the corresponding alcohols by heterogeneous asymmetric hydrogen transfer reaction with formic acid-triethylamine azeotrope as the hydrogen donor. One of the product alcohols (19c) is an intermediate for the synthesis of optically active fluoxetine. 

Bulk aluminum may undergo the following dangerous interactions exothermic reaction with butanol, methanol, 2-propanol, or other alcohols, sodium hydroxide to release explosive hydrogen gas. Reaction with diborane forms pyrophoric product. Ignition on contact with niobium oxide + sulfur. Explosive reaction with molten metal oxides, oxosalts (nitrates, sulfates), sulfides, and sodium carbonate. Reaction with arsenic trioxide + sodium arsenate + sodium hydroxide produces the toxic arsine gas. Violent reaction with chlorine trifluoride, Incandescent reaction with formic acid. Potentially violent alloy formation with palladium, platinum at mp of Al, 600°C. Vigorous dissolution reaction in... 

C0-Iodoperfluoropropyl)furan-3(2H)-one 40 is formed in one step reaction of alcohol 41 with formic acid. ... 

The alcohol is formylated by reaction with formic acid under acidic conditions. 

Uses ndReactions. Dihydromyrcene is used primarily for manufacture of dihydromyrcenol (25), but there are no known uses for the pseudocitroneUene. Dihydromyrcene can be catalyticaUy hydrated to dihydromyrcenol by a variety of methods (103). Reaction takes place at the more reactive tri-substituted double bond. Reaction of dihydromyrcene with formic acid gives a mixture of the alcohol and the formate ester and hydrolysis of the mixture with base yields dihydromyrcenol (104). The mixture of the alcohol and its formate ester is also a commercially avaUable product known as Dimyrcetol. Sulfuric acid is reported to have advantages over formic acid and hydrogen chloride in that it is less compUcated and gives a higher yield of dihydromyrcenol (105). 

Polyene Cyclization. Perhaps the most synthetically useful of the carbo-cation alkylation reactions is the cyclization of polyenes having two or more double bonds positioned in such a way that successive bond-forming steps can occur. This process, called polyene cyclization, has proven to be an effective way of making polycyclic compounds containing six-membered and, in some cases, five-membered rings. The reaction proceeds through an electrophilic attack and requires that the double bonds that participate in the cyclization be properly positioned. For example, compound 1 is converted quantitatively to 2 on treatment with formic acid. The reaction is initiated by protonation and ionization of the allylic alcohol and is terminated by nucleophilic capture of the cyclized secondary carbocation. 

Inversion of configuration.1 The configuration of a secondary alcohol (2) can be inverted by reaction with dicyclohexylcarbodiimide (1) to form an isourea ether (3), which is allowed to react, without isolation, with formic acid with formation of the ester 4 with inverted configuration. 

In most cases, the reaction was carried out with formic acid. However, p-toluenesulfonic acid was used for the condensation of 4-methylbenzyl alcohol with benzene, benzyl alcohol with isodurene, and 2-methylbenzyl alcohol with p-xylene because formic acid was too weak an acid in these cases. 

The gas-phase esterification reaction has not been observed with formic acid. The reason for this behaviour has been explained on the basis of the proton affinities of the acid and alcohols as indicated in (73) and (74). Thus,... 

The methyl ester has also been obtained by esterification of cyclopentanecarboxylic acid.8 The acid, in turn, has been prepared by the Favorskii rearrangement,6 7 9-11 by the reaction of cyclopentyl Grignard reagent with carbon dioxide,12 by the carbonylation of cyclopentyl alcohol with nickel carbonyl13 or with formic acid in the presence of sulfuric acid,14 and by the hydrogenation of cyclopentene-1-carboxylic acid prepared from ethyl cyclopentanone-2-carboxylate 15 or from cyclopentanone cyanohydrin.16... 

Carbonyl)chlorohydridotris(triphenylphosphine)ruthenium(II) was used as a catalyst in the transfer hydrogenation of benzaldehyde with formic acid as a hydrogen source. Under these conditions, the reduction ofbenzaldehyde to benzyl alcohol is accompanied by esterification of the alcohol with the excess of formic acid to provide benzyl formate (Scheme 4.16). In this microwave-assisted reaction, the catalyst displayed improved turnover rates compared to the thermal reaction (280 vs. 6700 turnovers/h), thus leading to shorter reaction times36. 

Bicyclic amide acetals have synthetic utility, as illustrated by the catalytic reduction of (84 R1 = H, R2 = Pr") leading to amino alcohols (85) reaction of (84 R1 = OH, R2 = H) with formic acid involves double ring fission to give (86) (71S16,78MI43600). 

Acetic formic anhydride has been prepared by the reaction of formic acid with acetic anhydride2 3 and ketene,4,5 and of acetyl chloride with sodium formate.6 The present procedure is essentially that of Muramatsu.6 It is simpler than others previously described and gives better yields. It is easily adapted to the preparation of large quantities, usually with an increase in yield. Acetic formic anhydride is a useful intermediate for the formyl-ation of amines,3,7 amino acids,8,9 and alcohols,2,10 for the synthesis of aldehydes from Grignard reagents,11 and for the preparation of formyl fluoride.12... 

The reaction of optically active secondary alcohols with DCC in dioxane or toluene affords O-alkyhsoureas 447, which react with formic acid to produce the ester 448 with complete inversion of configuration. Hydrolysis of 448 produces the secondary alcohol 449 with inversion of configuration." ... 

Some of the reactions of diaminomaleonitrile have already been outlined (Schemes 11 and 17). Reactions of this versatile compound which lead to the formation of the 1,2- and 2,3-bonds of imidazole have also been described. When heated in alcoholic solution with an alkyl orthoformate, 4,5-dicyanoimidazole is formed with formic acid in refluxing xylene,... 

Dialkyl acetals and ketals can easily be formed from carbonyl compounds with alcohols under acidic conditions. Some representative examples for the great variety of methods available for this transformation are given in Scheme 77. As is demonstrated, both simple alcohols themselves or formic acid ortho esters can be used for acetal formation in the presence of hydrochloric acid, toluenesulfonic acid °° or activated alumina (Montmorrilonite clay K-10). ° Owing to different carbonyl reactivities, regio- and chemo-selective differentiation is often realizable, as has been shown, for example, on androstane-3,17-dione (78). Acid-catalyzed acetalization selectively delivers the 3-ketal, whereas the sterically hindered 17-carbonyl function remains unaffected. Under neutral conditions the reactions are promoted by cata-... 

Properties Deliquescent, crystalline powder. D 1.26 mp 115C. Soluble in water and alcohol. Derivation Reaction of formic acid with ammonia. 

Polymer-bound isonitrile (423), obtained from TentaGel-NH2 through treatment of the resin with formic acid and acetic anhydride, followed by dehydration of the resulting formamide with tosyl chloride and pyridine, has been employed in the preparation of N-substituted amino add ester [349]. Thus, Ugi MCR, performed in the presence of an alcohol instead of the carboxylic component, gave rise to an imino-ether spedes (426). Several Lewis acids were tested in searching for optimal reaction conditions. Boron trifluoride etherate displayed the better yields in term of desired product of the Ugi-type reaction. Amino acid methyl esters (427) were thus obtained when using methanol as the alcohol component, after deavage from the resin of the intermediate imino-ethers by an acetone/water mixture (Scheme 87). 

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