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carbenoid

Carbenoid is a reactive intermediate in organic synthesis that behaves as a latent carbene. In many reactions the carbenoid transfers a one-carbon fragment to a substrate, producing cyclopropanes or inserting into bonds, but unlike a free carbene it is generated in situ and is stabilized by a metal center or by adjacent substituents, which modulate its reactivity and selectivity.

Carbenoids are typically formed from diazo compounds under metal catalysis to give metal carbenoids (for example

Applications of carbenoids include stereoselective cyclopropanation of olefins, insertion into C–H or O–H bonds, and epoxidation

Usage of the term emphasizes the transient, often metal-stabilized character of the reactive fragment rather than

Rh,
Cu,
or
Zn
species),
or
from
specialized
reagent
systems
such
as
the
Simmons–Smith
methylene
transfer,
in
which
the
iodomethyl
zinc
carbenoid
generated
from
CH2I2
and
Zn/Cu
transfers
CH2
to
alkenes
to
give
cyclopropanes.
The
Furukawa
modification
uses
diethylzinc
to
improve
efficiency
and
selectivity.
Another
important
family
comprises
sulfur
ylide–based
carbenoids
used
in
the
Corey–Chaykovsky
reactions,
which
generate
methylene
carbenoids
that
convert
carbonyl
compounds
to
epoxides
or
enable
cyclopropanation.
or
ring-closure
reactions.
The
latent
nature
of
carbenoids
offers
practical
advantages
in
controlling
reactivity,
but
they
can
be
highly
reactive
and
require
careful
handling
and
reaction
design
to
avoid
side
reactions
such
as
dimerization
or
rearrangement.
a
free
carbene.