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fotochromische

Fotochromische, or photochromic, describes materials that change their optical properties in response to light. The effect is usually reversible: exposure to ultraviolet light triggers a color change that darkens the material, while removal of the light returns it toward its original clear state. This phenomenon is widely used in eyewear and, to a lesser extent, in architectural glazing and other coatings.

In ophthalmic applications, fotochromische lenzen (photochromic lenses) contain small molecules such as spiropyrans or naphthopyrans embedded

Performance depends on several factors, including ambient UV intensity, temperature, and the specific chemistry of the

Historically, photochromic materials were developed in the mid-20th century and became widely available in consumer eyewear

in
the
lens
polymer.
When
UV
light
penetrates
the
lens,
these
molecules
undergo
a
reversible
chemical
transformation
to
a
colored
form
that
absorbs
visible
light,
reducing
transmission.
Inorganic
approaches
exist
as
well,
using
metal-doped
glass,
but
organic
photochromic
compounds
are
most
common
in
consumer
eyewear
today.
photochromic
system.
Lenses
typically
darken
more
quickly
in
bright
sun
and
may
fade
more
slowly
at
lower
temperatures.
Indoor
light
or
shade
reduces
darkening,
and
some
lenses
do
not
reach
the
darkness
of
dedicated
sunglasses.
The
return
to
clear
can
take
seconds
to
minutes,
influenced
by
formulation
and
temperature.
Over
time,
photochromic
performance
can
degrade,
potentially
requiring
replacement
of
the
lenses.
through
brands
such
as
Transition
Optical.
Beyond
lenses,
fotochromische
coatings
or
glass
are
used
in
certain
windows
and
glazing
applications
to
provide
variable
shading
and
glare
control,
though
they
are
less
common
than
in
sunglasses.