In a
3-l. round-bottomed flask fitted with a dropping funnel and a reflux condenser (Note
1) are placed
144 g. (1 mole) of β-naphthol and
400 ml. of glacial acetic acid. Through the dropping funnel is then added a solution of
320 g. (2 moles) of bromine in
100 ml. of acetic acid. The flask is shaken gently during the addition, which requires 15–30 minutes. The
β-naphthol dissolves during this period, and heat is evolved; the mixture is cooled somewhat towards the end of the addition to avoid excessive loss of
hydrogen bromide. One hundred milliliters of water is then added, and the mixture is heated to boiling. It is then cooled to 100°,
25 g. of mossy tin is added (Note
2), and boiling is continued until the metal is dissolved. A second portion of
25 g. of tin is then added and dissolved by boiling, and finally a third portion of
100 g. (a total of 150 g., 1.27 gram atoms) of tin is introduced. The mixture is boiled for 3 hours, cooled to 50°, and filtered with suction. The crystalline
tin salts which are thus removed are washed on the funnel with
100 ml. of cold acetic acid, the washings being added to the main portion of the filtrate.
This filtrate is stirred into 3 l. of cold water; the
6-bromo-2-naphthol which is precipitated is filtered with suction, removed from the funnel, and washed by stirring with 1 l. of cold water. After filtering again and drying at 100° there is obtained
214–223 g. (
96–100%) of
6-bromo-2-naphthol. This crude product, which is pink and melts at
123–127°, contains some
tin but is pure enough for most purposes.
A white product is obtained by vacuum distillation followed by crystallization of the crude product.
Twenty-five grams of the crude substance on distillation (Note
3) gives
20 to 24 g. of distillate boiling at
200–205°/20 mm., and when this is crystallized from a mixture of
75 ml. of acetic acid and 150 ml. of water it gives
17.5 to 22.5 g. of
6-bromo-2-naphthol which melts at
127–129°.