RSC Advances,
Journal Year:
2023,
Volume and Issue:
13(45), P. 31738 - 31755
Published: Jan. 1, 2023
Thermal
management,
including
heating
and
cooling,
plays
an
important
role
in
human
productive
activities
daily
life.
Nevertheless,
the
actual
environment,
almost
all
ambient
scenarios
come
with
challenge
that
objects
are
located
a
quite
dynamic
variable
which
includes
fluctuations
aspects
such
as
space,
time,
sunlight,
season,
temperature.
It
is
imperative
to
develop
low-energy
or
even
zero-energy
thermal-management
technologies
renewable
clean
energy.
In
this
review,
we
summarised
latest
technological
advances
prospects
burgeoning
field.
First,
present
fundamental
principles
of
daytime
passive
radiative
cooling
(PDRC)
thermal
management
device.
Next,
domain
dual-mode
systems,
they
classified
into
various
types
based
on
diverse
mechanisms
transitioning
between
states,
electrical
responsive,
mechanical
temperature
solution
responsive.
Furthermore,
conducted
in-depth
analysis
design
methodologies
associated
these
categories,
followed
by
comparative
assessment
their
performance
solar
applications.
Finally,
review
presents
challenges
opportunities
dual
mode
while
also
identifying
future
directions.
Proceedings of the National Academy of Sciences,
Journal Year:
2024,
Volume and Issue:
121(18)
Published: April 22, 2024
Electrochromic
(EC)
displays
with
electronically
regulating
the
transmittance
of
solar
radiation
offer
opportunity
to
increase
energy
efficiency
building
and
electronic
products
improve
comfort
lifestyle
people.
Despite
unique
merit
vast
application
potential
EC
technologies,
long-awaited
windows
related
visual
content
have
not
been
fully
commercialized
due
unsatisfactory
production
cost,
durability,
color,
complex
fabrication
processes.
Here
we
develop
a
strategy
system
based
on
natural
host
guest
interactions
address
above
issues.
A
completely
reusable
sustainable
device
has
fabricated
advantages
extremely
low
ideal
user-/environment
friendly
property,
excellent
optical
modulation,
which
is
benefited
from
extracted
biomass
materials
transparent
electrodes
involved
in
system.
The
as-prepared
window
nonemissive
display
also
show
comprehensively
properties:
high
change
(>85%),
broad
spectra
modulation
covering
Ultraviolet
(UV),
Visible
(Vis)
Infrared
(IR)
ranges,
durability
(no
attenuation
under
UV
for
more
than
1.5
mo),
open
voltage
(0.9
V),
reusability
(>1,200
cycles)
device’s
key
components
reversibility
(>4,000
large
change,
pleasant
multicolor.
It
anticipated
that
unconventional
exploration
design
principles
dynamic
host–guest
can
provide
insight
into
different
energy-saving
optoelectronic
applications.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
34(17)
Published: Dec. 31, 2023
Abstract
Electrochromic
(EC)
technology
is
regarded
as
one
of
the
most
promising
candidates
for
next‐generation
reflective
displays,
owing
to
its
advantages
outstanding
color
adjustability,
low
energy
consumption,
vivid
color,
and
flexibility,
etc.
However,
current
EC
displays
are
seriously
restricted
by
complicated
expensive
patterned
methods.
Herein,
a
facile
low‐cost
route
developed
achieve
which
fabricated
based
on
combination
an
easily‐obtained
material
poly(3,4‐ethylenedioxythiophene):poly(styrenesulfonate)
(PEDOT:PSS)
efficient
photo‐crosslinked
additive
(2,4‐hexadiyne‐1,6‐diol,
HDDO).
The
micrometer‐scale
patterns
(<50
µm)
can
be
achieved
in
situ
process.
As‐prepared
devices
show
great
performances
containing
fast
response
(<0.5
s),
good
reversibility
(>10
000
cycles)
high
coloration
efficiency
(274.75
cm
2
C
−1
).
More
importantly,
applications
logo,
QR
code,
price
tag
demonstrated
successfully.
Overall,
exploration
suggests
efficient,
low‐cost,
method
produce
with
performance,
undoubtedly
promote
further
development
application
displays.
RSC Advances,
Journal Year:
2023,
Volume and Issue:
13(45), P. 31738 - 31755
Published: Jan. 1, 2023
Thermal
management,
including
heating
and
cooling,
plays
an
important
role
in
human
productive
activities
daily
life.
Nevertheless,
the
actual
environment,
almost
all
ambient
scenarios
come
with
challenge
that
objects
are
located
a
quite
dynamic
variable
which
includes
fluctuations
aspects
such
as
space,
time,
sunlight,
season,
temperature.
It
is
imperative
to
develop
low-energy
or
even
zero-energy
thermal-management
technologies
renewable
clean
energy.
In
this
review,
we
summarised
latest
technological
advances
prospects
burgeoning
field.
First,
present
fundamental
principles
of
daytime
passive
radiative
cooling
(PDRC)
thermal
management
device.
Next,
domain
dual-mode
systems,
they
classified
into
various
types
based
on
diverse
mechanisms
transitioning
between
states,
electrical
responsive,
mechanical
temperature
solution
responsive.
Furthermore,
conducted
in-depth
analysis
design
methodologies
associated
these
categories,
followed
by
comparative
assessment
their
performance
solar
applications.
Finally,
review
presents
challenges
opportunities
dual
mode
while
also
identifying
future
directions.
