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elektrochrome

Elektrochrome, or electrochromic material, refers to substances that change their optical properties in response to an applied electric voltage. When a potential is applied, ions and electrons are inserted into or removed from an electrochromic layer, producing a reversible change in color or opacity. The effect is known as electrochromism, and devices that exploit it are called electrochromic devices (ECDs).

Materials commonly used include transition metal oxides such as tungsten oxide (WO3), mixed oxide composites, organic

Applications are diverse and include smart windows and skylights to modulate solar heat gain and glare, automotive

Performance is described by metrics such as the change in transmittance (ΔT), coloration efficiency, switching speed,

Challenges remain in improving switching speed and uniformity, long-term stability, and cost, as well as integrating

conducting
polymers
like
poly(3,4-ethylenedioxythiophene)
(PEDOT),
viologen
salts,
and
inorganic
compounds
such
as
Prussian
blue.
Practical
electrochromics
are
typically
thin
films
on
a
substrate
with
an
electrolyte
and
a
counter
electrode.
Coloration
and
bleaching
are
driven
by
small
voltages,
often
less
than
a
few
volts.
dimmable
mirrors,
rear-view
mirrors,
display
elements,
and
architectural
glazing.
A
key
advantage
is
the
ability
to
maintain
a
colored
or
bleached
state
without
continuous
power
consumption.
cycle
life,
and
optical
memory.
Durability
and
environmental
sensitivity,
including
humidity
and
temperature,
influence
commercial
viability.
electrochromic
layers
with
large-area
substrates.
Ongoing
research
seeks
faster,
higher-contrast
devices,
safer
materials,
and
flexible
or
transparent
substrates
for
broader
adoption.