Checked by T. L. Cairns and H. E. Winberg.
1. Procedure
A.
Sodium β-styrenesulfonate. In a
3-l. three-necked flask, equipped with a
drying tube, a
sealed stirrer, and a
ground-glass stopper, is placed
800 ml. of ethylene chloride (Note
1). The flask with fittings is weighed and then connected through the third neck to a
sulfur trioxide distillation apparatus (Note
2).
Sulfur trioxide is distilled into the flask until about 300 g. has been collected. During the distillation the flask is cooled with a large pan of cold water (Note
3). The distillation is stopped, the condenser is disconnected and replaced by the glass stopper, and the flask is again weighed.
The stopper is replaced by a
thermometer, and the other side neck is equipped with a
two-way adapter to hold a
dropping funnel and a drying tube. The
sulfur trioxide solution is cooled below −5deg; with an
ice-salt bath, then an amount of
dioxane (Note
4) equivalent to the
sulfur trioxide is added slowly with vigorous stirring at such a rate that the temperature does not exceed 5° (Note
5).
One molar equivalent of
styrene (Note
6) dissolved in
2 volumes of ethylene chloride is added with stirring to the suspension of
dioxane sulfotrioxide. The temperature is maintained below 10° during the hour required for addition, during which the suspension of colorless solid changes to a milky tan solution. The cooling bath is removed, and stirring is continued for an additional hour. After standing overnight, the nearly clear yellow solution is heated under reflux for 2 hours on the
steam bath. The solution, now dark brown, is allowed to cool, is poured into 3 l. of ice water, and is stirred or shaken to ensure transfer of the sulfonic acid to the water (Note
7). The emulsion is neutralized with
sodium hydroxide solution (Note
8), the layers are separated, and the aqueous phase is extracted with two
500-ml. portions of isopropyl ether (Note
9).
Several crops of crystals are now taken by evaporating the aqueous solution to the saturation point on a hot plate with stirring, then cooling. Each crop is dried for 2 hours at 100° and analyzed for unsaturation by the bromate-bromide titration method (Note
10). The first two crops usually total about
380 g. (based on
300 g. of sulfur trioxide),
49% yield, and are about 95% pure by titration. They may be further purified by one recrystallization from water, with about
80% recovery of 99 + % pure salt.
The third crop generally weighs about
100 g. and is about 80% pure; the fourth crop weighs about
75 g., and is about 60% pure (Note
11). For purification, the third crop is recrystallized from the mother liquor resulting from the recrystallization of the combined first and second crops; the fourth crop is recrystallized from the third-crop mother liquor. An additional recrystallization from water is usually required to obtain material of 95 + % purity.
B.
β-Styrenesulfonyl chloride.
One hundred grams of dry sodium β-styrenesulfonate (Note
14) is placed in a
500-ml. round-bottomed flask and thoroughly mixed with
120 g. of powdered phosphorus pentachloride with vigorous shaking. The flask is attached to a
reflux condenser capped with a drying tube and heated on the steam bath until the reaction mixture liquefies, then for an additional 4 hours. The
phosphorus oxychloride is removed by distillation at reduced pressure (
water aspirator) on the steam bath. The semisolid residue is extracted three times by boiling for 15 minutes with
100-ml. portions of chloroform. The residue in the flask is dissolved in 200 ml. of ice water and extracted with
100 ml. of chloroform. The combined
chloroform solutions are washed with 200 ml. of water, two
100-ml. portions of 5% sodium bicarbonate, and finally with 100 ml. of water. After drying for 2 hours over
calcium chloride, the solution is treated with
3 g. of Norit, filtered, and concentrated to 150 ml., and
200 ml. of 60–68° petroleum ether is added. On cooling,
81–86 g. (
83–88% yield) of
β-styrenesulfonyl chloride separates as colorless needles, m.p.
88–90°. Recrystallization raises the melting point to
89–90° (Note
15), (Note
16), and (Note
17).
2. Notes
1. A good grade of
ethylene chloride is dried by slowly distilling a portion and rejecting the wet fore-run. Technical grade material should be carefully fractionated before use; the fraction boiling at
82.6–82.8° gives excellent results.
2. The apparatus for distillation of
sulfur trioxide is constructed from a 500-ml. round-bottomed flask, connected by a ground joint to a 6-in. section of 20-mm. glass tubing. A safety tube (8-mm. tubing) reaching to the bottom of the flask is attached at the top by means of a ground joint; it is convenient to bend the top of the tube so that any acid drip can be caught in a
beaker. A side arm, sealed in near the top of the wide tube, leads through a ground joint to an air condenser consisting of a 30-in. length of 12-mm. tubing, which terminates in a ground joint (with a drip tip) to fit the reaction flask. It is imperative that the apparatus be all glass, since
sulfur trioxide rapidly attacks rubber or cork connections.
Sulfur trioxide is distilled by heating
60% fuming sulfuric acid contained in the flask. Spent acid may be fortified with "Sulfan B," stabilized liquid
sulfur trioxide obtainable from the General Chemical Company, 40 Rector St., New York. Undiluted Sulfan B solidifies in the flask after a few heatings, and subsequent reheating may be dangerous.
3. Only slight cooling is needed at this stage. Stirring may be intermittent, if more convenient. If the
sulfur trioxide solidifies above the level of the
ethylene chloride from excessive cooling, it may easily be melted by warming the flask with a soft flame.
5. If the temperature is allowed to rise much above 5°, charring results and the product is discolored. A Dry
Ice bath may be used to advantage. The reagent thus prepared should be used within a few hours, since
dioxane is slowly attacked by
sulfur trioxide.
6. Stabilized
styrene of monomeric quality is used directly. The small amount of stabilizer does not interfere with the reaction.
7. In small runs,
ether may be used to break the emulsion, thus permitting the separation of the layers before neutralization. In large runs, excessively large amounts of
ether are required and it is preferable to neutralize first.
8.
Methyl red serves as a convenient indicator. Slightly more than
1 mole of sodium hydroxide is required per mole of
sulfur trioxide. Other metal salts can be prepared, using a suitable hydroxide or carbonate for the neutralization.
9.
Ethyl ether may be substituted, but its greater water solubility is a disadvantage. Evaporation of the combined organic layers at reduced pressure below 40° leaves a residue of about
5% (based on
sulfur trioxide) of
2,4-diphenylbutane-1,4-sultone, which may be purified (
60% recovery) by recrystallization from
acetone-water; m.p.
147–149°. The yield of sultone may be increased to about
25% of pure material by using
3 moles of styrene per mole of
sulfur trioxide.
10. A sample (approximately 0.2 g.) is weighed accurately and dissolved in 25 ml. of water; then
25 ml. of 0.1N hydrochloric acid and
0.2 g. of potassium bromide are added. The solution is titrated with
0.07M potassium bromate until a permanent yellow color is produced.
Potassium iodide (0.1 g.) is added, and the solution is backtitrated to a starch end point with
0.1N sodium thiosulfate. The blue color returns in about a minute since the high acidity promotes air oxidation of excess iodide. The accuracy is only slightly less if the appearance of a faint yellow bromine color is taken as the end point.
One mole of potassium bromate is equivalent to 3 of
sodium β-styrenesulfonate.
12. The procedure may be modified to prepare
sodium 2-phenyl-2-hydroxyethane-1-sulfonate. The temperature during the addition of
styrene is maintained below 0°. After 30 minutes of additional stirring at 0°, the mixture is hydrolyzed in ice water without heating. The crops of salts are analyzed, and those that are low in unsaturation are recrystallized from
70% aqueous ethanol. The more unsaturated crops are recrystallized from the mother liquors. The yield is
45–50% of material with less than 5% unsaturation.
13. Since the sodium sulfonates have no definite melting points, they may be converted to crystalline
benzylthiuronium, p-chlorobenzylthiuronium, aniline, or p-toluidine salts for characterization.
2
14. The salt is dried at 100° for 4 hours, then powdered.
15. An additional
6–7 g. of product, m.p.
88–89°, may be obtained by evaporation of the mother liquors and distillation of the residue as rapidly as possible at 2 mm. (bath temperature 120–140°). The total yield is thus
88–92%; in smaller runs, yields up to
96% are frequently obtained. Large batches cannot be distilled satisfactorily.
16.
Carbon tetrachloride may also be used as a recrystallization solvent. The product should be stored in a tightly closed brown bottle to retard its slow decomposition.
17. The checkers used one-third quantities throughout both parts of this preparation with comparable results.
3. Discussion
Appendix
Compounds Referenced (Chemical Abstracts Registry Number)
petroleum ether
Methyl Red
benzylthiuronium, p-chlorobenzylthiuronium, aniline, or p-toluidine salts
ethanol (64-17-5)
calcium chloride (10043-52-4)
sulfuric acid (7664-93-9)
hydrochloric acid (7647-01-0)
ether,
ethyl ether (60-29-7)
sodium hydroxide (1310-73-2)
phosphorus pentachloride (10026-13-8)
sulfur trioxide (7446-11-9)
chloroform (67-66-3)
sodium bicarbonate (144-55-8)
sodium sulfate (7757-82-6)
oxygen (7782-44-7)
carbon tetrachloride (56-23-5)
potassium iodide (7681-11-0)
sodium thiosulfate (7772-98-7)
ethylene chloride (107-06-2)
sodium bisulfite (7631-90-5)
Norit (7782-42-5)
Phosphorus Oxychloride (21295-50-1)
potassium bromate (7758-01-2)
sodium (13966-32-0)
potassium bromide (7758-02-3)
styrene (100-42-5)
dioxane (5703-46-8)
isopropyl ether (108-20-3)
calcium hydride (7789-78-8)
β-Styrenesulfonyl chloride,
Ethenesulfonyl chloride, 2-phenyl- (4091-26-3)
Ethenesulfonic acid, 2-phenyl-, sodium salt,
Sodium β-styrenesulfonate (2039-44-3)
dioxane sulfotrioxide
2,4-diphenylbutane-1,4-sultone
sodium 2-phenyl-2-hydroxyethane-1-sulfonate
ammonium sulfamate (7773-06-0)
pyridine sulfotrioxide
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