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trihalomethyl

Trihalomethyl refers to a substituent group consisting of a single carbon atom bonded to three halogen atoms, giving the general formula CX3. The halogens can be fluorine, chlorine, bromine, or iodine, with CF3 (trifluoromethyl) and CCl3 (trichloromethyl) being among the most common examples. When CX3 is attached to a carbon skeleton, the substituent is described as a trihalomethyl group.

Common variants and examples include trifluoromethyl (CF3), trichloromethyl (CCl3), tribromomethyl (CBr3), and, less commonly, iodomethyl derivatives

Nomenclature and reactivity: The term trihalomethyl is used to describe CX3 substituents in a general sense,

Applications and safety: The CX3 motif is prevalent in medicinal chemistry, where the trifluoromethyl group, in

(CI3).
These
groups
appear
in
a
variety
of
organic
compounds,
from
simple
substituents
on
arenes
or
alkanes
to
functionalized
molecules
such
as
carbonyl-containing
compounds.
Notable
examples
where
a
trihalomethyl
unit
is
present
include
chloral
(trichloroacetaldehyde,
Cl3C-CHO),
chloral
hydrate,
and
trichloroacetic
acid
(Cl3C-CO2H).
while
specific
instances
are
named
for
the
halogen
combination
(e.g.,
trifluoromethyl,
trichloromethyl).
The
CX3
group
is
highly
electron-withdrawing,
influencing
acidity
and
reactivity
at
neighboring
carbons.
It
can
participate
in
reactions
such
as
the
haloform
reaction,
where
methyl
ketones
bearing
CX3
groups
are
converted
to
CX3H
(chloroform,
bromoform,
etc.)
with
the
corresponding
carboxylate.
particular,
is
valued
for
increasing
lipophilicity
and
metabolic
stability.
However,
many
trihalomethyl
compounds
are
toxic
and
environmentally
persistent;
proper
handling
and
disposal
are
important.