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Aldehydes synthesis from nitriles

STEPHEN Aldehyde synthesis Aldehyde synthesis from nitriles and SnCfc - HCI... [Pg.185]

Patil XJB, Singh AS, Nagarkar JM (2014) Choline chloride based eutectic solvent an efficient and reusable solvent system for the synthesis of primary amides from aldehydes and from nitriles. RSC Adv 4(3) 1102-1106... [Pg.62]

Synthesis from Thiohydantoins. A modification (71) of the Bucherer-Bergs reaction consisting of treatment of an aldehyde or ketone with carbon disulfide, ammonium chloride, and sodium cyanide affords 2,4-dithiohydantoias (19). 4-Thiohydantoias (20) are available from reaction of amino nitriles with carbon disulfide (72). Compounds (19) and (20) can be transformed iato hydantoias. [Pg.254]

The addition of Grignard reagents to aldehydes, ketones, and esters is the basis for the synthesis of a wide variety of alcohols, and several examples are given in Scheme 7.3. Primary alcohols can be made from formaldehyde (Entry 1) or, with addition of two carbons, from ethylene oxide (Entry 2). Secondary alcohols are obtained from aldehydes (Entries 3 to 6) or formate esters (Entry 7). Tertiary alcohols can be made from esters (Entries 8 and 9) or ketones (Entry 10). Lactones give diols (Entry 11). Aldehydes can be prepared from trialkyl orthoformate esters (Entries 12 and 13). Ketones can be made from nitriles (Entries 14 and 15), pyridine-2-thiol esters (Entry 16), N-methoxy-A-methyl carboxamides (Entries 17 and 18), or anhydrides (Entry 19). Carboxylic acids are available by reaction with C02 (Entries 20 to 22). Amines can be prepared from imines (Entry 23). Two-step procedures that involve formation and dehydration of alcohols provide routes to certain alkenes (Entries 24 and 25). [Pg.638]

The production of optically active cyanohydrins, with nitrile and alcohol functional groups that can each be readily derivatized, is an increasingly significant organic synthesis method. Hydroxynitrile lyase (HNL) enzymes have been shown to be very effective biocatalysts for the formation of these compounds from a variety of aldehyde and aliphatic ketone starting materials.Recent work has also expanded the application of HNLs to the asymmetric production of cyanohydrins from aromatic ketones. In particular, commercially available preparations of these enzymes have been utilized for high ee (5)-cyanohydrin synthesis from phenylacetones with a variety of different aromatic substitutions (Figure 8.1). [Pg.259]

The ease of the Strecker synthesis from aldehydes makes a-aminonitriles an attractive and important route to a-amino acids. Fortunately, the microbial world offers a number of enzymes for carrying out the necessary conversions, some of them highly stereoselective. Nitrilases catalyze a direct conversion of nitrile into carboxylic acid (Equation (11)), whereas nitrile hydratases catalyze formation of the amide, which can then be hydrolyzed to the carboxylic acid in a second step (Equation (12)). In a recent survey, with a view to bioremediation and synthesis, Brady et al have surveyed the ability of a wide range of bacteria and yeasts to grow on diverse nitriles and amides as sole nitrogen source. This provides a rich source of information on enzymes for future application. [Pg.86]

A related method for the synthesis of aldehydes from nitriles has also been studied.8 This method, which has been found to be extremely effective for the reduction of hindered nitriles to aldehydes, uses moist, preformed Raney nickel catalyst in formic acid. Compounds synthesized by this method are illustrated in Table II. [Pg.12]

Optically active aldehydes are available in abundance from amino and hydroxy acids or from carbohydrates, thereby providing a great variety of optically active nitrile oxides via the corresponding oximes. Unfortunately, sufficient 1,4- or 1,3-asymmetric induction in cycloaddition to 1-alkenes or 1,2-disubstituted alkenes has still not been achieved. This represents an interesting problem that will surely be tackled in the years to come. On the other hand, cycloadditions with achiral olefins lead to 1 1 mixtures of diastereoisomers, that on separation furnish pure enantiomers with two or more stereocenters. This process is, of course, related to the separation of racemic mixtures, also leading to both enantiomers with 50% maximum yield for each. There has been a number of applications of this principle in synthesis. Chiral nitrile oxides are stereochemicaUy neutral, and consequently 1,2-induction from achiral alkenes can fully be exploited (see Table 6.10). [Pg.400]

Efficient One Pot Synthesis of Nitriles from Aldehydes in Solid State Using Peroxymonosulfate on Alumina (Bose and Narsaiah, 1998)... [Pg.186]

STEPHEN ALDEHYDE SYNTHESIS. Preparation of aldehydes from nitriles by reduction with stannous chloride in ether saturated with hydrochloric acid. The intermediate aldimine salts have to be hydrolyzed. The best results are obtained in the aromatic series. [Pg.1540]

In attempts (76IZV690 80KGS1299 81MI4) to extend the pyrrole synthesis from ketoximes and acetylenes to aldoximes, the oximes of both aliphatic and aromatic aldehydes have been found to readily convert to the corresponding nitriles upon moderate heating (60-140°C) in KOH/DMSO. [Pg.250]

Structure of the Carbonyl Group 817 18-3 Nomenclature of Ketones and Aldehydes 818 18-4 Physical Properties of Ketones and Aldehydes 820 18-5 Spectroscopy of Ketones and Aldehydes 822 18-6 Industrial Importance of Ketones and Aldehydes 828 18-7 Review of Syntheses of Ketones and Aldehydes 829 18-8 Synthesis of Ketones from Carboxylic Acids 833 18-9 Synthesis of Ketones and Aldehydes from Nitriles 833... [Pg.17]

A synthesis of nitriles from the cyanohydrins of aromatic aldehydes via the reduction of the corresponding a-halo cyanides has been proposed. As an example, benzaldehyde cyanohydrin is converted by the action of thionyl chloride to phenylchloroacetonitrile (80%). This substance is reduced with zinc in acetic acid to phenylacetonitrile (70%). ... [Pg.309]

A new method, employing 0-(2-aminobenzoyl)hydroxylamine and BF3 Et20, has been discovered for the synthesis of nitriles from aldehydes yields are 78-94 % (Eq. 90) [147]. [Pg.113]

STEPHEN Aldehyde Synthesis Synthesis of aldehydes from nitriles and SnCI2-HCI (see 1st edition). [Pg.353]

A new method of nitrile synthesis from aldehydes has been discovered using 0-(2-aminobenzoyl)hydroxylamine andBF3-OEt2, achieving 78-94% yields (eq 39). ... [Pg.33]

Additional examples of synthetic application of periodic acid as an oxidant include the oxidative iodination of aromatic compounds [1336-1341], iodohydrin formation by treatment of alkenes with periodic acid and sodium bisulfate [1342], oxidative cleavage of protecting groups (e.g., cyclic acetals, oxathioacetals and dithioacetals) [1315, 1343], conversion of ketone and aldehyde oximes into the corresponding carbonyl compounds [1344], oxidative cleavage of tetrahydrofuran-substituted alcohols to -y-lactones in the presence of catalytic PCC [1345] and direct synthesis of nitriles from alcohols or aldehydes using HsIOe/KI in aqueous ammonia [1346],... [Pg.305]

Inspired by the work of Inoue, Lipton and coworkers replaced the imidazole side chain of t icZo-peptide 50, which was efficient as catalyst in cyanohydrin synthesis from aldehydes (Scheme 13.29), with a more basic guanidine moiety in order to afford a catalyst capable of accelerating proton transfer in the Strecker reaction. The modified catalyst 52 was found to be effective in the synthesis of a-amino nitriles with very high yields from aromatic and aliphatic M-benzhydiyl imines, giving enantioselectivities of up to 99% (Scheme 13.30). ... [Pg.342]

Without reference to Pschorr and Hoppe, Steven in 1925, in the context of a new aldehyde synthesis, prepared indole in 55% yield from o-nitrophenylacetonitrile using anhydrous stannous chloride and gaseous hydrogen chloride (Scheme 2, equation 1) [2]. The reduction of the nitrile proceeds to form initially the aldimine stannic chloride complex ([RCH=NH HClJ SnCl ), which can be isolated. [Pg.349]

The importance of amino-nitriles is reflected in the number of reports in which they have appeared. Previous reports of a-amino-nitrile synthesis from a-silyloxynitriles and amines have been supplemented by a reported situ preparation of these intermediates by treatment of aldehydes and ketones with cyanotrimethy1-... [Pg.281]

Sharghi, H. and Hosseini-Sarvari, M. 2002a. A direct synthesis of nitriles and amides from aldehydes using dry or wet alumina in solvent free conditions. Tetrahedron. 58(52) 10323-10328. [Pg.97]

Reddy, M.B.M. and Pasha, M.A. 2010. Environment friendly protocol for the synthesis of nitriles from aldehydes. Chin. Chem. Lett. 21 1025—1028. [Pg.285]

See other pages where Aldehydes synthesis from nitriles is mentioned: [Pg.917]    [Pg.917]    [Pg.629]    [Pg.733]    [Pg.73]    [Pg.68]    [Pg.128]    [Pg.793]    [Pg.733]    [Pg.3]    [Pg.142]    [Pg.833]    [Pg.833]    [Pg.251]    [Pg.300]    [Pg.247]    [Pg.733]    [Pg.144]    [Pg.430]    [Pg.22]    [Pg.733]    [Pg.129]    [Pg.129]    [Pg.1913]   
See also in sourсe #XX -- [ Pg.917 ]



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