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Enolate anions acetoacetic ester synthesis

Alkylation of the enolate anion derived from ethyl acetoacetate followed by removal of the ester group is known as the acetoacetic ester synthesis and is an excellent method for the preparation of methyl ketones. The product of an acetoacetic ester synthesis is the same as the product that would be produced by the addition of the same... [Pg.867]

The malonic ester synthesis is similar to the acetoacetic ester synthesis. It begins with deprotonation of diethyl malonate (pKa = 11) to produce an enolate anion that is the synthetic equivalent of the enolate anion derived from acetic acid ... [Pg.869]

In both the acetoacetic ester synthesis and the malonic ester synthesis, it is possible to add two different alkyl groups to the a-carbon in sequential steps. First the enolate ion is generated by reaction with sodium ethoxide and alkylated. Then the enolate ion of the alkylated product is generated by reaction with a second equivalent of sodium ethoxide, and that anion is alkylated with another alkyl halide. An example is provided by the following equation ... [Pg.870]

Many alkylation and acylation reactions are most effective using anions of /3-dicarbonyl compounds that can be completely deprotonated and converted to their enolate ions by common bases such as alkoxide ions. The malonic ester synthesis and the acetoacetic ester synthesis use the enhanced acidity of the a protons in malonic ester and acetoacetic ester to accomplish alkylations and acylations that are difficult or impossible with simple esters. [Pg.1077]

We have described what is commonly known as the acetoacetic ester synthesis and have illustrated the use of ethyl acetoacetate as the starting reagent. This same synthetic strategy is applicable to any j8-ketoester, as, for example, those that are available by the Claisen (Section 19.3A) and Dieckmann (Section 19.3B) condensations. For example, following are structural formulas for two jS-ketoesters available from Dieckmann and Claisen condensations that can be made to tmdergo (1) formation of an enolate anion, (2) alkylation or acylation, (3) hydrolysis followed by (4) acidification, and finally (5) decarboxylation just as we have shown for ethyl acetoacetate. [Pg.820]

Enolate anion alkylations, acetoacetic ester synthesis and malonic ester synthesis (Sections 19.6 and 19.7). [Pg.1054]

A variation of the malonic ester synthetic uses a P-keto ester such as 116. In Section 22.7.1, the Claisen condensation generated P-keto esters via acyl substitution that employed ester enolate anions. When 116 is converted to the enolate anion with NaOEt in ethanol, reaction with benzyl bromide gives the alkylation product 117. When 117 is saponified, the product is P-keto acid 118, and decarboxylation via heating leads to 4-phenyl-2-butanone, 119. This reaction sequence converts a P-keto ester, available from the ester precursors, to a substituted ketone in what is known as the acetoacetic acid synthesis. Both the malonic ester synthesis and the acetoacetic acid synthesis employ enolate alkylation reactions to build larger molecules from smaller ones, and they are quite useful in synthesis. [Pg.1157]

Anions of (3-keto esters are said to be synthetically equivalent to the enolates of ketones. The anion of ethyl acetoacetate is synthetically equivalent to the enolate of acetone, for example. The use of synthetically equivalent groups is a common tactic in synthetic organic chemistry. One of the skills that characterize the most creative practitioners of organic synthesis is an ability to recognize situations in which otherwise difficult transfonnations can be achieved through the use of synthetically equivalent reagents. [Pg.896]


See other pages where Enolate anions acetoacetic ester synthesis is mentioned: [Pg.2]    [Pg.963]    [Pg.347]    [Pg.896]    [Pg.162]    [Pg.46]    [Pg.450]    [Pg.784]   
See also in sourсe #XX -- [ Pg.784 , Pg.785 , Pg.786 , Pg.787 ]




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Acetoacetate ester

Acetoacetate ester synthesis

Acetoacetate, synthesis

Acetoacetates esters

Acetoacetates synthesis

Acetoacetates, enolization

Acetoacetic ester acetoacetate

Acetoacetic ester synthesis

Acetoacetic ester—

Enol esters

Enol synthesis

Enolate anions

Enolate anions, ester

Enolate synthesis

Enolates anion

Enolates anionic

Enolates enol esters

Ester enolate

Esters acetoacetic ester

Esters acetoacetic ester synthesis

Esters enolates

Esters enolization

Synthesis anionic

Synthesis enolates

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