In a
500-cc. three-necked flask, provided with a
mercury-sealed stirrer and a
calcium chloride tube,
68 g. (0.1 mole) of α-cellobiose octaacetate, m.p.
220–222° (p. 124), is suspended in
300 cc. of absolute methyl alcohol. A solution, prepared by dissolving
0.25 g. (0.01 gram atom) of sodium in
50 cc. of methyl alcohol, is added, and the mixture is stirred vigorously for one hour at room temperature (Note
1). The mixture becomes thin as the hydrolysis proceeds and the solvent acquires a slight color. After the time specified the crystalline solid is collected by suction filtration, washed with four
25-cc. portions of methyl alcohol, and dried at 40°. The weight of the nearly colorless crude
cellobiose corresponds closely to the theoretical amount (
34 g.). For purification it is dissolved in 125 cc. of hot water containing a few drops of glacial
acetic acid, and the solution is clarified with
1–2 g. of Norite and filtered by suction. The colorless filtrate is concentrated under reduced pressure to a small volume, continuing until a large portion of the
cellobiose has crystallized, and the crystalline magma is washed into an
Erlenmeyer flask with
100 cc. of methyl alcohol. The mixture is stirred well and allowed to stand for several hours for completion of the crystallization, and the sugar is collected on a
Büchner funnel, washed with
25 cc. of methyl alcohol, and dried at 40°. The yield of pure
cellobiose,
[α]20°D + 34.8° (in 6 per cent aqueous solution), is
31 g. (
91 per cent of the theoretical amount). On concentrating the mother liquor to a small volume and adding alcohol as before, 1 g. of equally pure product is obtained, making the total yield
94 per cent of the theoretical amount (Note
2).