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photoresponsive

Photoresponsive refers to materials, molecules, or devices that exhibit a measurable change in one or more properties when exposed to light. These changes can involve optical, electrical, chemical, or mechanical aspects, and may be reversible or irreversible. Common changes include shifts in absorbance or color, refractive index, conductivity, stiffness, or binding affinity, enabling external light to control function without direct physical contact.

Mechanisms behind photoresponsiveness include photoisomerization (as seen in azobenzene and spiropyran systems), photocleavage or photocrosslinking, and

Material platforms for photoresponsiveness encompass small photoactive molecules, photoresponsive polymers (including polymers bearing azobenzene or spiropyran

Applications include photodetection and imaging, optical data storage, light-controlled actuation and sensing, smart windows and coatings,

photogenerated
charge
carriers
that
alter
conductivity
or
chemical
reactivity.
Reversible
systems
switch
states
when
irradiated
with
different
wavelengths,
while
irreversible
systems
undergo
a
permanent
transformation
after
light
exposure.
The
speed
of
response
and
fatigue
resistance
depend
on
molecular
structure,
light
intensity,
and
the
surrounding
environment.
groups),
photoactive
hydrogels,
and
inorganic
photoactive
materials
such
as
semiconductor
nanoparticles
and
metal
oxides.
Composites
combine
multiple
components
to
tailor
properties
such
as
wavelength
selectivity
and
mechanical
behavior.
and
light-triggered
drug
delivery
or
photocatalysis.
In
research
contexts,
photoresponsiveness
is
characterized
by
metrics
such
as
quantum
yield,
response
time,
fatigue
life,
and
contrast
between
states.
Ongoing
work
aims
to
improve
stability,
biocompatibility,
wavelength
selectivity,
and
energy
efficiency
in
responsive
systems.