Submitted by Erwin Schwenk, Domenick Papa, Hilda Hankin, and Helen Ginsberg.
Checked by Cliff S. Hamilton and Flaven E. Johnson.
1. Procedure
In a
2-l. beaker resting on a hot plate and equipped with a mechanical stirrer are placed
150 g. of sodium hydroxide (Note
1) dissolved in 800 ml. of water and
41.4 g. (0.3 mole) of furylacrylic acid (p. 425). The stirrer is started, and to the warm solution (Note
2)
100 g. of Raney nickel-aluminum alloy is added, in small portions, over a period of 4–4.5 hours (Note
3) and (Note
4). During the addition of the alloy, the temperature of the mixture is kept at 60–70° and then is raised to approximately 95° where it is held for an additional 2–3 hours, with stirring. From time to time sufficient water is added to the reaction mixture to maintain approximately the original volume. The hot solution is filtered by decantation, and the
nickel residue (Note
5) is washed with two
50-ml. portions of hot 2% sodium hydroxide solution. The combined filtrates and washings are cooled and then immediately added slowly (Note
6), with good stirring, to
800 ml. of concentrated hydrochloric acid (Note
7). The solution at this point is strongly acid to Congo red paper (Note
8). The acidified solution is cooled and thoroughly extracted with three
200-ml. portions of ether (Note
9). The
ether extracts are combined and washed once with
100 ml. of 10% sodium chloride solution, the
ether is evaporated, and the residue is fractionally distilled in a
modified Claisen flask. The yield of
γ-n-propylbutyrolactone boiling at
84–85°/5 mm.,
nD25 1.4385, is
13.0–14.9 g. (
33–37%), while the yield of
β-(tetrahydrofuryl) propionic acid boiling at
123–124°/5 mm.,
nD25 1.4578, is
15.0–17.0 g. (
34–39%) (Note
10), (Note
11).
2. Notes
1. Solid
sodium hydroxide is used in order to take advantage of the heat of solution. If the mixture at this stage is allowed to cool, it will be necessary to heat the solution to 50–60° before the addition of the alloy is begun.
3. If any excessive frothing occurs during the addition of the alloy, a few drops of
octyl alcohol can be added from time to time.
4. During the addition of the alloy, it is advantageous to stir the solution efficiently, the alloy being added in the vortex of the solution. If the addition of the alloy is made on the surface of the liquid, most of the
hydrogen developed is lost without entering into the reaction.
5. The
Raney nickel residue is quite active and will ignite if allowed to become dry. It may readily be disposed of by pouring into dilute mineral acid. This
nickel residue is sufficiently active for various types of catalytic hydrogenations requiring the use of Raney
nickel catalyst.
6. If the acidified mixture is allowed to become too hot, some of the material may be lost by steam distillation.
7. The alkaline solution is added to the
hydrochloric acid in the manner described, since the reverse order of addition usually results in the precipitation of aluminum salts which dissolve only after considerable heating and stirring. The alkaline solution is added at such a rate that at no time is there any appreciable amount of solid present.
8. If insufficient
hydrochloric acid is used at this stage, aluminum salts will precipitate and will make the
ether extractions difficult because of the formation of emulsions.
9. The acidified solution has also been extracted with
ether in a
continuous liquid-liquid extractor, this extraction requiring approximately 20 hours. Only slightly higher yields of the two products are obtained by this modification.
The
ether extracts, after washing with salt solution, are extracted with one
100-ml. and two 50-ml. portions of 5% sodium carbonate solution. It is important that the
ether solution be free of any mineral acid before the carbonate extractions are made. The residual
ether solution, after being washed with
10% sodium chloride solution, is dried over
sodium sulfate. The
ether is removed by distillation, and the residue is distilled under reduced pressure. The yield of
γ-n-propylbutyrolactone is
14.5 g. (
36%), b.p.
78–80°/2 mm. The combined
sodium carbonate extracts are acidified to Congo red paper with concentrated
hydrochloric acid and then thoroughly extracted with one
100-ml. and two 50-ml. portions of ether. The combined
ether extracts are washed with
10% sodium chloride solution and dried; and, after the
ether is removed by distillation, the residue is distilled under reduced pressure. The yield of
β-(tetrahydrofuryl)propionic acid is
15.9 g. (
36%), b.p.
118–120°/2 mm.
11. The submitters have used this procedure for the reduction of
β-(α-thenoyl) propionic acid1 from which
ω-hydroxycaprylic acid2 has been obtained in a yield of
38%, melting at
54–55°, and
δ-n-propylvalerolactone in a yield of
31%, boiling at
116–117°/10 mm.
3. Discussion
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