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photochromic

Photochromic describes materials that reversibly change color or opacity in response to light, most often ultraviolet radiation. When exposed to activating light, the material undergoes a chemical or structural change that increases light absorption, producing a visible color or darkening. When the activating light is removed or the material is exposed to heat or to visible light, it gradually returns to its original, lighter state. The effect is designed to be reversible and repeatable, with performance depending on the specific chemistry and environmental conditions.

Several classes of photochromic systems are used in commercial products. Organic photochromic compounds, such as spiropyrans,

Applications span eyewear lenses, architectural glass, automotive glazings, textiles, and inks. Advantages include automatic tinting in

spirooxazines,
and
diarylethenes,
change
between
a
colorless
or
lightly
colored
form
and
a
colored
isomer
through
reversible
isomerization
or
cyclization.
In
many
eyewear
lenses,
a
different
approach
is
used:
silver
halide
microcrystals
dispersed
in
a
polymer
matrix
darken
under
UV
exposure
and
fade
in
visible
light
or
with
heat.
This
inorganic
mechanism
is
common
in
self-tensing
sunglasses
and
can
be
engineered
for
rapid
darkening
and
fading.
bright
light
and
potential
energy
savings
from
reduced
need
for
active
shading.
Limitations
can
include
slower
fading
in
low
temperatures,
gradual
fatigue
after
repeated
cycles,
and
reduced
performance
with
extreme
heat
or
prolonged
UV
exposure.
Research
continues
to
improve
color
stability,
response
speed,
and
durability
across
diverse
environments.