9-Hydroxy-9-(N,N-dimethylthiocarbamyl)fluorene,4, reacts very rapidly
with 1 equiv of thionyl chloride to give the corresponding alpha-chlor
othioamide derivative, 2. However reaction of 4 with 2 equiv of thiony
l chloride gives the desulfurized product 9-chloro-9-(N,N-dimethylcarb
amyl)fluorene 6. This unusual desulfurization reaction, which is neith
er completely general nor completely understood at the present time, o
ccurs less readily than initial formation of the alpha-chlorothioamide
. The a-chlorothioamide 2 is highly reactive in hydroxylic solvents. T
he substantially less reactive alpha-chloroamide 6 undergoes reaction
in hydroxylic solvents via the intermediacy of the 9-(N,N-dimethylcarb
amyl)-9-fluorenyl cation, 15, at rates comparable to those of the or-H
analogue, 9-chlorofluorene, 14. Computational studies indicate that t
he cl-carbonyl cation 15 prefers a conformation in which the carbonyl
group is rotated 90 degrees with respect to the fluorenyl system. The
relatively rapid rate of solvolysis of 6 is attributed to relief of gr
ound-state strain as the cation 15 forms, as well as delocalization in
volving the fluorene system. Carbonyl conjugation as a cation-stabiliz
ing feature does not appear to operate in the alpha-carbonyl cation 15
.