Stability of CarbanionsSTABILITY OF CARBANIONS
As might be expectgd, the effect of electron-withdrawing (i.e. activat
ing) groups is most pronounced when they can exert a mesomeric as
well as an inductive effect; for then they not only promote acidity in
the relevant hydrogen atom but stabilise the resultant carbanion as
FORMATION OF CARBANIONS
Although the tendency of many C—H bonds to such spontaneous
dissociation is but low, structural factors, particularly the presence
of electron-withdrawing groups, can lead to sufficient acidity in such
hydrogen atoms as to permit their ready removal by bases:
RCH.X+B: -* RCHX+B:HThus the following compounds
EtO,CCH,CO,Et CH 3 NO,
(VI) pK.»15 pK„=10-2MeCOCH,CO,Et Me • CO • CH, • CO • Me
(VII) pK„=10 1 (VIII) pK„ = 8-8readily yield carbanions in this way which are, with similar ones, of the
utmost importance as intermediates in a wide variety of reactions.
Other compounds which lose a proton less readily may sometimes
be converted into carbanions by treatment with very strong bases in
anhydrous media, as is the case with acetylene (pK?= 26):
- •
©NH,
HC=CH v HC=Ce + NH 3
NH, liq.
Where the actual isolation or ready detection of a carbanion as
such is not feasible, the transient formation of such a species may be
inferred from dissolving the compound, in the presence of base, in
DaO or EtOD and observing if deuterium becomes incorporated.
Thus chloroform is found to undergo such an incorporation:
-H® D,O
HCC1, ©CCI, DCCI3
H.O -D©