Organic Syntheses, CV 4, 576
Submitted by Kurt Rorig, J. Derland Johnston, Robert W. Hamilton, and Thomas J. Telinski
1.
Checked by William S. Johnson, Stanley Seltzer, and Peter Yates.
1. Procedure
In a
1-l. flask fitted with a paddle-blade stirrer are placed
138 g. (1 mole) of anisyl alcohol (Note
1) and
248 ml. of concentrated hydrochloric acid. After stirring vigorously for 15 minutes the contents of the flask are transferred to a
separatory funnel. The lower layer (
anisyl chloride) is separated, dried over
20 g. of granular calcium chloride for about 30 minutes, and filtered to remove the drying agent.
In a
2-l. three-necked round-bottomed flask, fitted with an efficient sealed stirrer and a reflux condenser capped by a drying tube, are placed the dried
anisyl chloride (Note
2) and (Note
3),
73.6 g. (1.5 moles) of finely powdered sodium cyanide,
10 g. of sodium iodide, and
500 ml. of dry acetone (Note
4). The heterogeneous reaction mixture is heated under reflux with vigorous stirring for 16–20 hours, then cooled and filtered with suction. The solid on the filter is washed with
200 ml. of acetone and discarded (Note
5). The combined filtrates are distilled to remove the
acetone. The residual oil is taken up in
300 ml. of benzene and washed with three 100-ml. portions of hot water. The
benzene solution is dried over
anhydrous sodium sulfate for about 15 minutes, and the solvent is removed by distillation at the reduced pressure of the
water aspirator (Note
6). The residual
p-methoxyphenylacetonitrile is purified by distillation under reduced pressure through an
8-in. Vigreux column; b.p.
94–97°/0.3 mm.;
nD25 1.5285–1.5291. The yield is
109–119 g., or
74–81% based on
anisyl alcohol (Note
7) and (Note
8).
2. Notes
1.
Givaudan-Delawanna (330 W. 42nd Street, New York 18, N. Y.) "Anisic Alcohol" of 97% minimum purity was used.
2. The crude
anisyl chloride is unstable. It should be used the same day it is made.
3. This step should be performed in a
well-ventilated hood.
5. This residue should be discarded with due regard for the unused
sodium cyanide it contains.
6. The undistilled
p-methoxyphenylacetonitrile weighs
125–139 g. (
85–95%) and has a refractive index close to that of the distilled product. It can be used for many purposes, such as condensation with aromatic aldehydes to yield α-
p-methoxyphenylcinnamonitriles, without further purification.
7. The submitters have carried out this preparation on five times the scale described here with comparable yields.
8. This method is particularly applicable to the more reactive benzyl halides which are easily hydrolyzed in the aqueous media usually employed for the metathetical reaction with alkali cyanides. For example,
anisyl chloride treated with
sodium cyanide in aqueous
dioxane gives, as a by-product,
5–10% of anisyl alcohol as determined by infrared analysis. The use of anhydrous
acetone not only prevents hydrolysis to the alcohol but also decreases the formation of isonitriles. This method was also applied successfully by the submitters to the preparation of
p-chlorophenylacetonitrile in
74% yield.
3. Discussion
This method is an adaptation of that of Dengel.
2 p-Methoxyphenylacetonitrile can also be prepared by the metathetical reaction of
anisyl chloride with alkali cyanides in a variety of aqueous solvent mixtures;
3,4,5,6,7,8,9,10,11 by the nitration of
phenylacetonitrile, followed by reduction, diazotization, hydrolysis, and methylation;
12,13 by the reduction of
α-benzoxy-p-methoxyphenylacetonitrile (prepared from
anisaldehyde,
sodium cyanide, and
benzoyl chloride);
14 by the reaction of
acetic anhydride with the
oxime of p-methoxyphenylpyruvic acid;
15 and through the condensation of
p-methoxybenzaldehyde with
rhodanine.
16
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