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cyanines

Cyanines are a class of synthetic dyes and pigments characterized by two nitrogen-containing heterocycles linked by a polymethine chain. The length of the polymethine chain determines the color, with shorter chains producing yellow to red dyes and longer chains extending absorption into the near-infrared. Most cyanines are positively charged, which influences their solubility, binding properties, and interactions with biomolecules.

Chemically, the key feature is a polymethine chromophore that bridges two heterocyclic rings, such as indole,

Applications of cyanines are diverse. They are used as dyes and pigments for textiles, printing, and photography,

Synthesis typically involves condensation of heterocyclic precursors with reagents that form the polymethine bridge, allowing systematic

benzothiazole,
or
quinoline
derivatives.
The
chain
length
and
substituents
tune
the
electronic
structure,
yielding
high
molar
absorptivity
and,
for
fluorescent
variants,
bright
emission.
Increasing
chain
length
shifts
both
absorption
and
emission
toward
longer
wavelengths,
and
hexamethine
to
heptamethine
cyanines
are
commonly
used
to
reach
the
near-infrared
region.
and
as
laser
dyes
in
optical
systems.
In
biology
and
chemistry,
cyanine
dyes
such
as
Cy3
and
Cy5
are
widely
employed
as
fluorescent
labels
for
nucleic
acids,
proteins,
and
other
biomolecules,
enabling
fluorescence
microscopy,
flow
cytometry,
and
imaging
assays.
Their
brightness
and
tunable
spectra
contribute
to
their
prominence
as
labeling
reagents.
adjustment
of
wavelength,
brightness,
and
solubility.
Practical
use
requires
consideration
of
photostability,
tendency
to
aggregate
in
solution,
and
sensitivity
to
solvent
polarity
and
pH,
which
can
affect
performance.