Organic Syntheses, Coll. Vol. 3, p.553 (1955); Vol. 21, p.77 (1941).
[I. METHOD A]
In a dry 2-l. three-necked flask
, equipped with a sealed wire stirrer
, a condenser protected by a drying tube
, and a dropping funnel
, are placed 85.0 g. (3.5 gram atoms) of magnesium turnings
and 150 ml. of dry ether (Note 1)
. A solution of 199 g. (1 mole) of carefully fractionated bromomesitylene
and 218 g. (2 moles) of ethyl bromide (Note 2)
in 1 l. of dry ether (Note 1)
is placed in the funnel. Stirring is commenced, and about 25 ml. of the ether
solution is added; the reaction begins almost at once. The rest of the solution of halides is added during the course of 1.25–1.5 hours to the vigorously refluxing mixture; moderate cooling is necessary to permit addition within the specified period. After completion of the addition, refluxing is maintained by external heating for 30 minutes. The reaction mixture is then cooled, and the solution of alkyl magnesium bromides is decanted slowly from the excess magnesium
onto 600 g. of Dry Ice which is stirred manually in a 4-l. beaker
. The Dry Ice should be in the form of small lumps, and the addition must be slow enough to avoid spattering. The flask is rinsed with two 200-ml. portions of dry ether
, which are added to the carbonation mixture. When most of the Dry Ice has evaporated, an additional 200-g. portion is added along with 250 ml. of dry ether
. The viscous is stirred until it becomes largely granular.
When the bulk of the Dry Ice has evaporated, 800 ml. of 20% hydrochloric acid
and enough ice to keep the mixture cold are added with stirring. After most of the solid has dissolved, the mixture is transferred to a separatory funnel
with the addition of ordinary ether
if the volume of the organic layer is much less than 1 l. After agitation until both layers are clear, the aqueous layer is rejected, and the ethereal layer is washed with three 1-l. portions of cold water to remove hydrochloric acid
and most of the propionic acid
formed in the carbonation. The product is extracted by shaking first gently and then vigorously with a 540-ml. (600-g.) portion of ice-cold 10% sodium hydroxide
solution. After agitation for several minutes the aqueous solution should still be strongly basic as shown by testing with a suitable indicator paper. The aqueous layer is separated and acidified with stirring by the slow addition of 250 ml. of 20% hydrochloric acid
. The suspension is cooled, and the nearly colorless product, consisting of small granules, is collected and washed well with water. The crude acid, amounting to 141–143 g
) (Note 3)
, melting at 152–154°
(cor.), is satisfactory for most purposes. A purer product may be obtained as large, nearly colorless crystals, m.p. 153.4–154.4°
(cor.), by crystallization from a solution, saturated at the boiling point, in 45% methanol
. The yield of the recrystallized acid is 138–141.5 g.
) (Note 4)
The checkers used commercial anhydrous ether
which had been stored over sodium wire, and they dried the various pieces of apparatus in an oven
before assembly. If the redrying of the ether
was omitted, the yield was lowered appreciably.
This procedure may be conducted on one-fifth the scale without alteration in yield.
The checkers employed 20 ml. of a solvent mixture containing 45% of methanol
by weight for each 10 g. of the crude acid. To avoid the loss of methanol
from the hot solution the operation was carried out under a reflux condenser
, and the clear, nearly colorless solution was cooled rapidly without transferral. If filtration of the hot solution should be desirable a higher concentration of methanol
would be more convenient.
[II. METHOD B]
In a 2-l. three-necked flask
, fitted with a condenser protected by a drying tube, a dropping funnel, and a sealed stirrer, are placed 24.3 g. (1 gram atom) of magnesium turnings
, a small crystal of iodine
, enough absolute ether
to cover the magnesium
, and 10 g. (0.05 mole) of bromomesitylene
. The bottom of the flask is warmed with the hand or a warm cloth until the reaction begins. The mixture is then stirred gently during the gradual addition of 190 g. (0.95 mole) of bromomesitylene
dissolved in 500 g. (700 ml.) of absolute ether
. When all the ethereal solution has been added, the reaction mixture is refluxed for about 2 hours, or until all the magnesium
has dissolved. A large excess of solid carbon dioxide
is now added slowly in small pieces with rapid stirring (Note 1)
. The resulting tough addition product is decomposed by pouring, with stirring, into a large volume of finely crushed ice to which has been added 100 ml. (1.2 moles) of concentrated hydrochloric acid
. The ether
is removed by evaporation, and the resulting oily solid is filtered, dissolved in 200–400 ml. of hot methanol
, filtered, and thrown out by dilution with 1 l. of ice water. The crude mesitoic acid
melts between 135° and 148°
and weighs 110–120 g.
The acid is recrystallized from petroleum ether
), about 10 ml. of petroleum ether
being used per gram of the crude acid. The product, melting at 150–152°
after one recrystallization, weighs 90–100 g.
) (Note 2)
A mixture of 90 g. (0.55 mole) of mesitoic acid
and 100 g. (63 ml., 0.84 mole) of thionyl chloride
in a 500-ml. large-mouthed Claisen flask
, with the side arm and adjacent neck closed, and with the other neck fitted with a condenser protected by a drying tube, is refluxed gently until the evolution of sulfur dioxide
and hydrogen chloride
ceases (Note 3)
. The excess thionyl chloride
is removed by distillation at atmospheric pressure, and the residual acid chloride is distilled at 143–146°/60 mm. (Note 4)
. The yield is 90–97 g.
The Grignard reagent may be carbonated by pouring it slowly over Dry Ice contained in a 2-l. beaker
. The yield is unchanged.
A small amount of mesitoic acid
can be recovered by concentrating the filtrate to a small volume and cooling it.
This requires from 1 to 2 hours. The reaction mixture may also be allowed to stand overnight at room temperature, in which case no heating is necessary.
The boiling point varies with the rate of distillation.
has been obtained by hydrolysis of its amide which was prepared from mesitylene
, carbamyl chloride
, and aluminum chloride
in carbon disulfide
It has been prepared by heating isodurene
with dilute nitric acid
in small yields by the distillation of 2,4,6-trimethylmandelic acid
by dry distillation of 2,4,6-trimethylphenylglyoxylic acid
by oxidation of 2,4,6-trimethylphenylglyoxylic acid
with potassium permanganate
and by treating 2,4,6-trimethylphenylglyoxylic acid
with concentrated sulfuric acid
either with heating7
or in the cold.8
The preparation of the acid from 2,4,6-trimethylphenylmagnesium bromide
and a stream of carbon dioxide
has been described.9
The method for the preparation of the chloride is the general method for preparing aromatic acid chlorides with thionyl chloride
which has been applied to the preparation of mesitoyl chloride
This preparation is referenced from:
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