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carbanionates

Carbanionates are salts of carbanions in which a negatively charged carbon center is stabilized by adjacent electron-withdrawing groups, such as esters, nitriles, or ketones. They are commonly derived from active methylene compounds, including malonates and acetoacetates, and can exist as lithium, sodium, or potassium salts. The stabilizing groups delocalize the negative charge via resonance, distributing electron density onto neighboring carbonyl oxygens and making the carbon nucleophilic yet comparatively less basic.

Preparation typically involves deprotonation of an active methylene compound with strong bases such as LDA, NaH,

Reactivity in organic synthesis centers on carbon nucleophilicity. Carbanionates participate in alkylations with primary or secondary

Applications are broad, spanning the synthesis of complex natural products, pharmaceuticals, and polymer precursors. The methodical

See also: enolates, malonates, acetoacetates.

or
NaNH2,
often
in
polar
aprotic
solvents
like
THF
or
DME.
Organolithium
or
Grignard
reagents
can
also
effect
metalation.
The
resulting
carbanionates
are
usually
isolable
as
metal
salts
or
as
solutions
in
suitable
solvents,
and
their
reactivity
is
governed
by
the
stabilizing
electron-withdrawing
groups.
alkyl
halides,
acylations,
and
various
electrophilic
additions.
They
can
engage
in
double
or
multiple
alkylations
when
the
substrate
offers
more
than
one
acidic
hydrogen,
enabling
construction
of
substituted
carbon
frameworks.
Decarboxylation
or
cleavage
of
the
stabilizing
groups
may
occur
under
heating
or
specific
workup
conditions,
sometimes
delivering
substituted
carbonyl
compounds.
use
of
malonate
and
acetoacetate
carbanionates
allows
controlled
formation
of
C–C
bonds
with
predictable
regiochemistry,
contributing
to
versatile
routes
in
organic
synthesis.