Palladous chloride (1.48 g., 0.0083 mole) (Note
1) is placed in a
10-ml. Erlenmeyer flask, and
3.6 ml. (0.043 mole) of 37% hydrochloric acid is added. The flask is shaken at about 30° until the
palladous chloride is dissolved. The
chloropalladous acid solution is transferred to a
150-ml. beaker with 45 ml. of distilled water (Note
2). The beaker is equipped with a pH meter and a
magnetic or mechanical stirrer. The pH of the stirred solution is brought to 4.0–4.5 by slow addition of aqueous
3N sodium hydroxide from a buret. A precipitate may form at high local concentrations of
sodium hydroxide, but it dissolves on further stirring. The solution is diluted to approximately 100 ml. in a
graduated cylinder and placed in a
200-ml. or 250-ml., three-necked, round-bottomed flask equipped with a mechanical stirrer and a
thermometer and partly immersed in a
bath of oil or water. Precipitated
calcium carbonate (18 g.) (Note
3) is added. The well-stirred suspension is heated to 75–85° and held at this temperature until all the
palladium has precipitated, as indicated by loss of color from the solution; this takes about 15 minutes. With the mixture still at 75–85°,
6.0 ml. of sodium formate solution (about 0.7N) (Note
4) is added. During the addition
CO2 escapes and the catalyst turns from brown to gray; rapid stirring is essential to keep the mixture from foaming over. An additional
4.5 ml. of the sodium formate solution is added, and the reduction is completed by stirring the mixture at 75–85° for 40 minutes. The catalyst, which is now black, is separated on a
10-cm. Büchner funnel (Note
5) and washed with eight 65-ml. portions of water.
The moist catalyst is placed in a 200-ml. or 250-ml. round-bottomed flask equipped as described above. Water (60 ml.) and
18 ml. of a 7.7% solution of lead acetate (Note
6) are added. The slurry is stirred and heated at 75–85° for 45 minutes. The catalyst is separated on a 10-cm. Büchner funnel, washed with four 50-ml. portions of water, sucked as dry as possible, and dried in an
oven at 60–70° (Note
7). The dried catalyst, a dark gray powder, weighs
19–19.5 g. (Note
8).
To establish that the catalyst is active and selective, it is convenient to test it by quantitative hydrogenation of
phenylacetylene to
styrene. The reaction flask of a low-pressure hydrogenation apparatus (Note
9) is charged with
2.04 g. (0.0200 mole) of phenylacetylene,
0.10 g. of the palladium catalyst,
1.0 ml. of quinoline (Note
10), and
15 ml. of olefin-free petroleum ether (b.p.
80–105°) or
hexane (Note
11). The apparatus is evacuated, and
hydrogen is admitted to a pressure slightly above 1 atm. Stirring or shaking is started, causing rapid absorption of
hydrogen. The
hydrogen pressure is kept close to 1 atm. Absorption of the first
0.0200 mole of hydrogen requires 10–90 minutes, depending on the activity of the catalyst.
Hydrogen absorption then abruptly slows but does not stop. In synthetic work it is desirable to stop the reaction soon after the required amount of
hydrogen has been absorbed.