In a
1-l. wide-mouthed bottle with a glass stopper,
400 cc. of acetic anhydride is cooled to −10° in a freezing mixture and
36 cc. of concentrated sulfuric acid is added at once with constant stirring. The temperature of the solution rises to about 20°. The bottle is removed from the freezing mixture, and 20 g. of absorbent cotton (Note
1) is worked into the liquor immediately with a
heavy glass rod. With constant stirring, the bottle is warmed in a
water bath maintained at 60° until the temperature of the mixture reaches 45° (about ten minutes), and then it is removed and the temperature is kept from rising above 55° by suitable cooling with running water, stirring being continued throughout (Note
2). After about twenty minutes (total) the mixture becomes thin; at this point it is cooled to 50° and a second 20-g. portion of cotton is added with stirring, the temperature again being kept from rising above 55°. The process of cooling to 50° and adding 20 g. of cotton is repeated at intervals of about ten minutes until 100 g. of cotton in all has been introduced. After the final addition stirring is continued until the mixture becomes thin (about ten minutes); then the bottle is stoppered and heated in a bath maintained at 50° for one hour, during which time the cotton dissolves completely to a thin, light brown syrup. The stoppered container is kept in an
oven at 35° for seven days.
The solution darkens to a deep wine-red color, and
α-cellobiose octaacetate begins to crystallize on the second day (Note
3). After seven days at 35° the semi-crystalline mass is stirred into 0 l. of cold water. With good stirring the flocculent precipitate of
α-cellobiose octaacetate and
cellulose-dextrin acetates soon becomes crystalline; after standing for one to two hours the solid is collected on a
12.5-cm. Büchner funnel, washed free from acid with cold water, and drained thoroughly. The moist product, weighing about
250 g., is triturated with
250 cc. of warm methyl alcohol, and, after cooling to room temperature, the undissolved solid is collected on a
7-cm. Büchner funnel, washed with three
50-cc. portions of methyl alcohol, and dried at 40°. The yield of fairly pure
α-cellobiose octaacetate is
69–74 g. For purification it is dissolved in
300 cc. of chloroform and the solution is filtered by suction into a dry
receiver through a pad prepared by dusting
Norite onto a Büchner funnel and washing the funnel with alcohol. The
chloroform solution is filtered while the pad is still wet with alcohol, and the filter is washed at once with
100 cc. of chloroform without interruption in the filtration. The colorless filtrate is concentrated at reduced pressure until the acetate begins to crystallize (about 250 cc.), the crystals are redissolved by warming, and the solution is poured into
750 cc. of warm methyl alcohol. The acetate begins to crystallize at once as small needles which eventually form a thick paste. The mixture is cooled to 0° with stirring, and after about one hour the material is collected, washed with
100 cc. of methyl alcohol, and dried at 40°. The yield of colorless
α-cellobiose octaacetate, m.p.
220–222°,
[α]20°D + 41.6°, is
65–69 g. (
35–37 per cent of the theoretical amount, assuming that the cotton contains 10 per cent of moisture) (Note
4), (Note
5), and (Note
6).
For further purification a solution of the material in
350 cc. of chloroform is clarified if necessary and poured into
750 cc. of methyl alcohol, and the mixture is cooled to 0°. The yield of the pure acetate, m.p.
225–226°,
[α]20°D + 42.5°, is
61–65 g. The constants are not altered by further crystallizations.