Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Carboxylic acids alkyne derivatives

On the other hand, the reaction of carboxylic acids with propargyl alcohols in place of terminal alkynes led to the catalytic head-to-head cyclodimerization of propargyl alcohols and addition of carboxylic acids. Alkylidenecyclobutene derivatives were obtained via cyclobutadieneruthenium and cyclobutenylmthenium intermediates [6] [Eq. (4)]. [Pg.292]

Two new sections on the protection of phosphates and the alkyne-CH are included. All other sections of the book have been expanded, some more than others. The section on the protection of alcohols has increased substantially, reflecting the trend of the nineties to synthesize acetate- and propionate-derived natural products. An effort was made to include many more enzymatic methods of protection and deprotection. Most of these are associated with the protection of alcohols as esters and the protection of carboxylic acids. Here we have not attempted to be exhaustive, but hopefully, a sufficient number of cases are provided that illustrate the true power of this technology, so that the reader will examine some of the excellent monographs and review articles cited in the references. The Reactivity Charts in Chapter 10 are identical to those in the first edition. The chart number appears beside the name of each protective group when it is first introduced. No attempt was made to update these Charts, not only because of the sheer magnitude of the task, but because it is nearly impossible in... [Pg.785]

Terminal aliphatic alkynes (e.g., 1-octyne) react with iron(III) halides (FeCls and FeBrs) to give the corresponding 2-halovinyl derivatives (route A, Scheme 10). The moderate yields were remarkably improved upon addition of stoichiometric amounts of carboxylic acids. [Pg.9]

The analytical data obtained, particularly by the PUMA mass spectrometer on board Vega 1 during the flyby, indicate the presence of a large number of linear and cyclic carbon compounds, such as olefins, alkynes, imines, nitriles, aldehydes and carboxylic acids, but also heterocyclic compounds (pyridines, pyrroles, purines and pyrimidines) and some benzene derivatives no amino acids, alcohols or saturated hydrocarbons are, however, present (Kissel and Krueger, 1987 Krueger and Kissel, 1987). [Pg.62]

As with carboxylic acids obtained by palladium hydroxycarbonylation, their derivatives esters, amides, anhydrides and acyl halides are synthesized from alkenes, CO and HX (X = OR, NR2 etc.). The Pd-catalyzed methoxycarbonylation is one of the most studied reactions among this type of catalyzed carbonylations and has been reviewed and included in reports of homogeneous catalysis.625, 26 The methoxycarbonylation has been applied to many different substrates to obtain intermediates in organic syntheses as well as specific products. For instance, the reaction has been applied for methoxycarbonylation of alkynes666 Highly efficient homogeneous Pd cationic catalysts have been reported and the methoxycarbonylation of alkynes has been used to develop economically attractive and environmentally benign process for the production of methyl... [Pg.191]

Carbon dioxide instead of aldehydes can be involved in Ni(0)-promoted reductive coupling reactions (Equations (76) and (77) Scheme 90).434,434a 434c A stoichiometric amount of Ni(COD)2/DBU reacts with C02 and dienes, alkynes, or allenes to afford a metallacycle intermediate. This metallacycle reacts with organozinc compounds or aldehydes in one-pot to give carboxylic acid derivatives. As shown in Scheme 90, double carboxylation occurs in the presence of dimethylzinc, where the stereochemical outcome is opposite to that of the reaction with diphenylzinc. [Pg.459]

Iodothiophene-2-carboxylic acid and terminal alkynes, in the presence of a palladium catalyst system, produce good yields of thieno[2,3-f]pyran derivatives as the major product (Equation 33) <2006TL83>. [Pg.303]

Carboxylic acids and their derivatives like esters, amides, anhydrides, and acyl halides are formally synthesized from olefins, carbon monoxide, and compounds represented by Nu-H such as H2O, ROH, RNH2, RCOOH (Equations (4) and (5)). Alkynes also react under similar conditions to afford the corresponding unsaturated carboxylic acid derivatives. These reactions have been named hydrocarboxylation, hydroalkoxycarbonylation, and hydroaminocarbonylation. [Pg.464]

Unsaturated hydrocarbons (alkenes, dienes) react with carbon monoxide and a proton source (H20, alcohols, amines, acids) under strong acidic conditions to form carboxylic acids or carboxylic acid derivatives. Since a carbocationic mechanism is operative, not only alkenes but also other compounds that can serve as the carbocation source (alcohols, saturated hydrocarbons) can be carboxylated. Metal catalysts can also effect the carboxylation of alkenes, dienes, alkynes, and alcohols. [Pg.379]

As is to be expected, an alkynic ketone undergoes a Michael addition with a carbanion, leading eventually to a pyranone (50JA1022). Using malonic esters, a 3-alkoxycarbonyl derivative results, which is hydrolyzed to the 2-oxopyran-3-carboxylic acid under alkaline conditions, but to the pyranone by sulfuric acid. Rapid ester exchange is observed with the initial products, the alcohol used as solvent determining the nature of the alkyl group in the 3-carboxylic esters (Scheme 90). [Pg.791]

The following discussion deals not only with this reaction, but related reactions in which a transition metal complex achieves the addition of carbon monoxide to an alkene or alkyne to yield carboxylic acids and their derivatives. These reactions take place either by the insertion of an alkene (or alkyne) into a metal-hydride bond (equation 1) or into a metal-carboxylate bond (equation 2) as the initial key step. Subsequent steps include carbonyl insertion reactions, metal-acyl hydrogenolysis or solvolysis and metal-carbon bond protonolysis. [Pg.913]

The hydrocarboxylation reaction of alkenes and alkynes is one which utilizes carbon monoxide to produce carboxylic acid derivatives. The source of hydrogen is a protic solvent (equation 35) dihydrogen is not usually added to the reaction. There are a number of variations to this reaction, since the solvent can be water, alcohols, amines, acids, etc. The catalysts can be Group VIII-X transition metals, but cobalt, rhodium, nickel, palladium and platinum have found the most use. [Pg.932]

If the functional group is a carbon species [i.e. —C=C—, —C=N, —CHO, —COR, —C02H(R)], then a possible disconnection point would be the bond uniting the a-carbon to the functional group carbon, as is found with alkynes (Section 5.3), aldehydes (Section 5.7), ketones (Section 5.8), carboxylic acids (Section 5.11) or their derived esters (Section 5.12.3, p. 695). Alternative disconnection points which would be worth considering are the a, / - and / , y-carbon bonds, in for example aldehydes or ketones. [Pg.22]

Reduction Alkenes, alkynes, aromatic, aldehydes, ketones, nitriles, carboxylic acids, and carboxylic acid derivatives... [Pg.78]

See other pages where Carboxylic acids alkyne derivatives is mentioned: [Pg.1627]    [Pg.18]    [Pg.1258]    [Pg.1897]    [Pg.105]    [Pg.1256]    [Pg.114]    [Pg.87]    [Pg.110]    [Pg.148]    [Pg.268]    [Pg.802]    [Pg.79]    [Pg.23]    [Pg.317]    [Pg.27]    [Pg.219]    [Pg.72]    [Pg.95]    [Pg.27]    [Pg.282]    [Pg.956]    [Pg.464]    [Pg.76]    [Pg.110]    [Pg.327]    [Pg.158]    [Pg.338]    [Pg.203]   


SEARCH



Alkynes : derivatives

Alkynes acidity

Alkynes carboxylation

Carboxylic acid derivates

Carboxylic acid derivs

© 2024 chempedia.info