Thirty-four grams (0.25 mole) of p-nitroaniline is dissolved in
110 cc. of fluoboric acid solution (Note
1) in a
400-cc. beaker. The beaker is placed in an
ice bath and the solution stirred with an
efficient stirrer. A cold solution of
17 g. (0.25 mole) of sodium nitrite in 34 cc. of water is added dropwise. When the addition is complete, the mixture is stirred for a few minutes and filtered by suction on a
sintered glass filter. The solid diazonium fluoborate is washed once with
25–30 cc. of cold fluoboric acid, twice with
95 per cent alcohol, and several times with
ether (Note
2). The product weighs
56–59 g. (
95–99 per cent of the theoretical amount).
Two hundred grams of sodium nitrite is dissolved in 400 cc. of water in a
2-l. beaker, and
40 g. of copper powder is added (Note
3). The mixture is stirred with an efficient stirrer (Note
4), and a suspension of the
p-nitrophenyldiazonium fluoborate in 200 cc. of water is added slowly. Much frothing occurs, and
4–5 cc. of ether is added from time to time to break the foam. The reaction is complete when all the diazonium compound has been added. The product is filtered with suction, washed several times with water, twice with dilute
sodium hydroxide solution, and again with water. The solid is dried in an oven at 110°, powdered, and extracted with
300-cc., 200-cc., and 150-cc. portions of boiling benzene. The
benzene is evaporated on a
water bath, and the residue is crystallized from
120–150 cc. of boiling glacial acetic acid. The resulting reddish yellow crystals, melting at
172–173°, weigh
28–34.5 g. (
67–82 per cent yield) (Note
5). Recrystallization from alcohol yields pale yellow crystals melting at
173°.