In a
1-l. steel bomb are placed
295 g. (1.5 moles) of m-nitrobenzaldehyde dimethylacetal (p. 644),
250 ml. of technical anhydrous methanol, and 1 tablespoon of Raney
nickel catalyst.
Hydrogen is introduced until the pressure is about 1000 lb. (Note
1). The bomb is heated to about 40°, at which point the heating is discontinued and the shaker is started. The hydrogenation soon becomes rapid as the temperature rises to about 70° (Note
2). The bomb is refilled with
hydrogen as many times as necessary (Note
3). The theoretical amount of
hydrogen (4.5 moles) is absorbed in about 1.5 hours.
The bomb is cooled, the remaining
hydrogen is discharged, and the bomb is opened. The solution is transferred to a
beaker, and the bomb is rinsed with a little
methanol which is added to the solution. The catalyst is removed by filtration
(Caution! The catalyst may be pyrophoric), and most of the filtrate is transferred to a
500-ml. Claisen flask set on a
steam bath for distillation of the
methanol; the remainder of the filtrate is introduced into the Claisen flask when the volume of the first portion has been reduced sufficiently by distillation. After all the
methanol has been removed the
aminoacetal is distilled under diminished pressure. The yield of
m-aminobenzaldehyde dimethylacetal, a light-yellow liquid boiling at
123–124°/4 mm. or
110–112°/1.5 mm., is
168–196 g. (
67–78%).