Ethyl acetoacetate synthesis

Objective

The objective consists of performing a Claisen condensation between two molecules of an ester (ethyl acetate) to form a β-ketoester (ethyl acetoacetate).

Background

Ester enolates undergo addition-elimination reactions with other ester functions giving rise to β-ketoesters. These transformations, known as Claisen condensations, can occur between the same or different ester molecules. The formation of enolates involves the use of strong bases compatible with the esters used.

Ethyl Acetoacetate Synthesis photo

Experimental procedure

Reaction of ethyl acetate

In a 250 ml round bottom flask 50 g (55.5 ml) of pure ethyl acetate are placed and 5 g of sodium wire, previously debarked, are added. A reflux condenser is adapted to the flask and a drying tube is placed at the upper end of the flask. The reaction mixture is heated to reflux, so that the ethyl acetate is kept in gentle boiling.

If the ethyl acetate contains only a small amount of alcohol or water, a violent reaction will not occur immediately and a slight release of hydrogen will be observed.

Heating is continued until the sodium is completely dissolved (approx. 3 h). Prolonging the reflux too long will result in a decrease in performance.

After this time the heating plate is switched off and while the reaction crude is still hot, a mixture consisting of 14 ml of acetic acid in 16 ml of water is added little by little with occasional stirring until acid pH is reached.

Isolation

Subsequently, an equal volume of cold saturated brine is added to the mixture and extraction is carried out with the separating funnel. The organic layer (upper) consists of a mixture of acetic acid (minor), ethyl acetate and ethyl acetoacetate (major).

To separate the ethyl acetoacetate, it is washed in the separating funnel with a saturated solution of sodium bicarbonate NaHCO3 and the organic layer.

Purification

The separated ethyl acetoacetate is purified by simple distillation. The distillation is stopped when the temperature reaches 95 ºC. The residue is distilled under vacuum. The first (relatively small) fraction consists of ethyl acetate and water. In the second fraction, which distills in a few degree range, ethyl acetoacetate is obtained.

Lower distillation temperatures than indicated can be observed depending on the pressure reached by the vacuum system used, for example, at 14 mmHg 74 ºC, at 29 mmHg 88 ºC, at 45 mmHg 94 ºC and at 80 mmHg 100 ºC.

Physico-chemical properties

This table collects data for the molecular weight (Mw), melting point (M.p.) boiling point (B.p.) and density of the reactives and compounds used in this laboratory experiment.

Name Mw (g/mol) M.p. (ºC) B.p. (ºC) Density (g/ml)
Acetic acid 60.05 16.2 118 1.049
Ethyl acetate 88.11 -84 77.1 0.902
Ethyl acetoacetate 130.14 -43 181 1.029
Na 22.99 97.8 883 0.968
NaHCO3 84.01 300 - 2.160

GHS pictograms

Hazard pictograms form part of the international Globally Harmonized System of Classification and Labelling of Chemicals (GHS) and are collected in the followinf Table for the chemical compounds used in this experiment.

Name GHS
Acetic acid ghs05  Danger Warning Corrosive cat. 1 pictogram ghs02  Danger Warning Flammable pictogram
Ethyl acetate ghs02  Danger Warning Flammable pictogram ghs07  Warning Toxic cat. 4 Irritant cat. 2 or 3 Lower systemic health hazards pictogram
Ethyl acetoacetate ghs07  Warning Toxic cat. 4 Irritant cat. 2 or 3 Lower systemic health hazards pictogram
Na ghs02  Danger Warning Flammable pictogram ghs05  Danger Warning Corrosive cat. 1 pictogram
NaHCO3 Non-hazardous

International Chemical Identifier

The IUPAC InChI key identifiers for the main compounds used in this experiment are provided to facilitate the nomenclature and formulation of chemical compounds and the search for information on the Internet for these compounds.

Acetic acid QTBSBXVTEAMEQO-UHFFFAOYSA-N
Ethyl acetate XEKOWRVHYACXOJ-UHFFFAOYSA-N
Ethyl acetoacetate XYIBRDXRRQCHLP-UHFFFAOYSA-N
Na KEAYESYHFKHZAL-UHFFFAOYSA-N
NaHCO3 UIIMBOGNXHQVGW-UHFFFAOYSA-M

Video on ethyl acetoacetate synthesis

References

Back to the Advanced Organic Synthesis Experiments page.

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