A
1-l. three-necked round-bottomed flask is fitted with a
dropping funnel, a
reflux condenser attached to a
hydrogen chloride absorption trap,
1 and a very
sturdy mechanical stirrer (Note
1), which may be of the mercury-sealed or rubber-sleeve type. In the flask are placed
350 ml. of dry carbon disulfide and
80 g. (0.48 mole) of fluorene (Note
2). The stirrer is started, and, after the
fluorene has dissolved,
128 g. (0.96 mole) of anhydrous aluminum chloride is added in one portion. In the dropping funnel is placed
49.4 g. (0.48 mole) of redistilled acetic anhydride, and about 1 ml. of it is added dropwise to the vigorously stirred dark red reaction mixture. If the reaction does not start immediately it is initiated by warming the reaction flask in a
water bath (Note
3). After the reaction has started, the balance of the
acetic anhydride is added at such a rate that the
carbon disulfide refluxes gently; about 45–55 minutes is required. When approximately one-half of the
acetic anhydride has been added an addition complex separates as a heavy mass which makes stirring very difficult. However, stirring must be maintained to prevent excessive local reaction at the point of introduction of the
acetic anhydride. The mixture is stirred and refluxed on the water bath for an hour after the addition of the
acetic anhydride is complete.
The dark green mass is collected on a
large Büchner funnel and transferred as quickly as possible (Note
4) to a
1-l. beaker in which it is stirred mechanically for 10 minutes with
300 ml. of carbon disulfide (Note
5). The solid is again collected and washed on the filter with two
50-ml. portions of carbon disulfide (Note
6) and with one
100-ml. portion of petroleum ether (b.p.
28–35°). The resulting granular
aluminum chloride complex is decomposed by portionwise addition to a well-stirred mixture of 800 ml. of water and
30 ml. of concentrated hydrochloric acid in a
2-l. beaker under a
hood. Each portion is allowed to hydrolyze before the next is added. The hydrolysis mixture should not be cooled. The crude
2-acetylfluorene is collected on a filter and washed three times with 100-ml. portions of water. After drying in an
oven at 100° for 3 hours the light-orange ketone weighs
83–95 g. (
83–95%) and melts over the range
113–117° (Note
7). This crude product is transferred to a
2-l. round-bottomed flask containing
800 ml. of 95% ethanol and
5 g. of decolorizing carbon. The mixture is refluxed for 1 hour and filtered hot. On cooling the filtrate deposits
71–83 g. of light-tan solid melting at
120–123°. A second recrystallization from
800 ml. of ethanol yields
55–63 g. (
55–63%) of a light-cream-colored powder which melts at
124–126° and which is pure enough for most purposes (Note
8).