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isonitriles

Isinortriles? Wait. The correct term is isonitriles, also called isocyanides. They are organic compounds defined by the isocyano group with the connectivity -N≡C. The general structure is R-N≡C, where R is an alkyl or aryl substituent attached to the nitrogen. This arrangement places the NC group as a distinct functional unit from nitriles, which have the opposite connectivity (-C≡N). Isonitriles are valued in organic synthesis for their unique reactivity, but many examples have strong, unpleasant odors and can be toxic.

The isocyanide group features a highly reactive carbon center, which behaves as a nucleophilic carbon in many

Synthesis of isonitriles commonly involves dehydration of primary formamides (R-NH-CHO) with phosphoryl chloride (POCl3) in the

Reactivity and applications are broad. Isonitriles serve as versatile one-carbon building blocks in multicomponent reactions, notably

Safety and handling: many isonitriles have foul odors and can be toxic; methyl isocyanate is especially hazardous.

reactions.
In
infrared
spectroscopy,
the
NC
triple
bond
typically
shows
a
strong
absorption
near
2140–2160
cm−1.
Isonitriles
are
generally
reactive
toward
nucleophiles
and
can
be
sensitive
to
air
and
moisture;
many
are
handled
under
inert
atmosphere
and
stored
in
appropriate
solvents
to
minimize
decomposition
or
polymerization.
presence
of
a
base
(such
as
pyridine)
to
furnish
R-NC.
Other
methods
include
alternative
dehydrative
routes
and
catalytic
transformations.
The
choice
of
method
depends
on
the
substrate
and
desired
scale.
the
Ugi
four-component
reaction
and
the
Passerini
reaction,
enabling
rapid
assembly
of
complex
molecules.
They
are
used
in
natural
product
synthesis,
medicinal
chemistry,
and
some
areas
of
polymer
and
organometallic
chemistry,
reflecting
their
unique
mode
of
carbon
and
nitrogen
connectivity.
They
require
appropriate
ventilation,
protective
equipment,
and
careful
storage
away
from
oxidizers
and
moisture.