Organic Syntheses, CV 6, 709
Submitted by Edward C. Taylor
1, Frank Kienzle
1, and Alexander McKillop
2.
Checked by Gordon S. Bates and S. Masamune.
1. Procedure
Caution! Thallium salts are very toxic. This preparation should be carried out in a
well-ventilated hood. The operator should wear rubber gloves. For disposal of
thallium wastes, see (Note
1) in
Org. Synth., Coll. Vol. 6, 791 (1988).
A
500-ml., round-bottomed flask equipped with a magnetic stirring bar and a glass stopper is charged with
110 ml. of trifluoroacetic acid (Note
1) and
54.34 g. (0.1008 mole) of solid thallium(III) trifluoroacetate (Note
2). A clear solution is obtained after 30 minutes of vigorous stirring. Upon addition of
10.6 g. (0.100 mole) of p-xylene (Note
3), the reaction mixture turns brown (Note
4). After vigorous stirring for 20 minutes, the
trifluoroacetic acid is removed on a rotary evaporator with a bath temperature of 35°, and the residue is dissolved in
100 ml. of diethyl ether. The solvent is again evaporated, and the solid residue is dissolved in
100 ml. of ether. With ice cooling (Note
5), a solution of
33.2 g. (0.200 mole) of potassium iodide in 100 ml. of water is added in one portion. After the resulting dark suspension is stirred vigorously for 10 minutes, a solution of
3 g. of sodium bisulfite in 30 ml. of water is added (Note
6). Yellow
thallium(I) iodide is removed by filtration after another 10 minutes of vigorous stirring and washed thoroughly with
150 ml. of ether. The aqueous layer is separated and extracted with two
60-ml. portions of ether. The combined ether extracts are washed once with
10% aqueous sodium hydroxide (Note
7) and twice with 20 ml. of water. After being dried over
anhydrous magnesium sulfate for 1 hour, the ether is removed on a rotary evaporator. Distillation under reduced pressure yields
18.5–19.6 g. (
80–84%) of pure
2-iodo-p-xylene, b.p.
110–113° (19 mm.) (Note
8),(Note
9),(Note
10).
2. Notes
1. This chemical is available from Aldrich Chemical Company, Inc., Halocarbon Products Corporation, Allied Chemical Corporation, or Eastman Organic Chemicals.
3. This reagent is obtainable from major chemical suppliers.
4. The submitters report that
p-xylylthallium bis(trifluoroacetate) precipitates after 5 minutes. The checkers did not obtain this precipitate until the bulk of the solvent had been evaporated.
7. The
sodium hydroxide solution should be added slowly, since the reaction with the acidic
ether extract is exothermic and may cause the
ether to boil. The
ether extract should be washed with aqueous
sodium hydroxide until the aqueous layer remains basic to litmus. This extraction is self-indicating; the
ether turns from a bright yellow to a light brown and color appears in the aqueous phase.
8. There is usually a lower boiling fraction of 0.1–0.3 g. consisting mainly of unreacted
p-xylene, along with 1.0–1.6 g. of a dark brown residue.
9. The purity of the product may be checked by GC. The submitters used a 10-m. column with 30% QF-1 on 45/60 Chrom W. The checkers used a 2-m. column of 10% UCW-98 on WAW DMCS operated at 150°.
10. The overall time needed for this preparation is less than 5 hours. The product decomposes slowly and should be refrigerated in the dark.
3. Discussion
This procedure for the synthesis of
2-iodo-p-xylene is slightly modified from that of Taylor and McKillop.
3 The reaction is generally applicable to a wide range of aromatic substrates,
3,4 and, with some modifications, to thiophenes. A critical feature of this synthesis is that the entering
iodine substituent always replaces
thallium at the same position on the aromatic ring. The great preference of the
thallium electrophile for the
para-position in activated aromatic substrates leads, therefore, to iodo-compounds of high isomeric purity. With substituents capable of chelating with the
thallium(III) electrophile, thallation may occur by an intramolecular delivery route, resulting in exclusive
ortho-substitution in optimum cases. Furthermore, aromatic electrophilic thallation is reversible, and under conditions of thermodynamic rather than kinetic control,
meta-substitution often predominates. The preparation of aromatic iodo-compounds
via arylthallium bis(trifluoroacetate) intermediates thus possesses the additional advantage of potential orientation control.
4
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