Next Nanotechnology,
Journal Year:
2024,
Volume and Issue:
5, P. 100059 - 100059
Published: Jan. 1, 2024
This
study
investigates
integrating
pixelated
colloidal
quantum
dot
(QD)
layers
into
LCDs
to
enhance
color
conversion
and
pixel-level
enrichment
for
future
display
technologies.
We
developed
miniature
prototypes
with
pixel-sized
QD
color-converter
seamlessly
integrated
the
backlight
unit
(BLU).
The
prototypes,
featuring
red-
green-emitting
pixels
a
single
blue
LED
on
glass
substrates,
underwent
rigorous
environmental
tests
such
as
Thermal
Shock
Test
(TST),
Cycle
(TCT),
High
Temperature
Humidity
(HHT),
Low
(LTT).
assessment
covered
uniformity
of
light,
spectral
radiance,
CIE
coordinates,
revealing
insights
performance
through
analysis
pre-
post-environmental
tests.
Despite
decrease
in
luminance,
exhibited
resilience
against
rapid
temperature
variations,
enduring
thermal
shock,
cycle
without
cracking.
However,
high-temperature
high-humidity
conditions
revealed
susceptibility.
Low-temperature
stress
demonstrated
stable
gamut
coordinates
no
discernible
shifts.
research
fills
notable
gap
existing
literature
by
conducting
comprehensive
utilization
technologies,
providing
valuable
stability,
durability,
reliability
displays.
ChemSusChem,
Journal Year:
2024,
Volume and Issue:
17(13)
Published: March 4, 2024
Abstract
Since
their
emergence
in
2014,
graphitic
carbon
nitride
quantum
dots
(g‐C
3
N
4
QDs)
have
attracted
much
interest
from
the
scientific
community
due
to
distinctive
physicochemical
features,
including
structural,
morphological,
electrochemical,
and
optoelectronic
properties.
Owing
desirable
characteristics,
such
as
non‐zero
band
gap,
ability
be
chemically
functionalized
or
doped,
possessing
tunable
properties,
outstanding
dispersibility
different
media,
biocompatibility,
g‐C
QDs
shown
promise
for
photocatalysis,
energy
devices,
sensing,
bioimaging,
solar
cells,
optoelectronics,
among
other
applications.
As
these
fields
are
rapidly
evolving,
it
is
very
strenuous
pinpoint
emerging
challenges
of
development
application
during
last
decade,
mainly
lack
critical
reviews
innovations
synthesis
pathways
domains
application.
Herein,
an
extensive
survey
conducted
on
synthesis,
characterization,
Scenarios
future
potential
applications
highlighted
discussed
detail.
The
provided
section
suggests
a
myriad
opportunities
QDs,
especially
functionalization,
where
combination
eco‐friendly/single
step
chemical
modification
may
used
prepare
with,
example,
enhanced
photoluminescence
production
yields.
Concerted
efforts
have
been
made
in
recent
years
to
find
solutions
water
and
wastewater
treatment
challenges
eliminate
the
difficulties
associated
with
methods.
Various
techniques
are
used
ensure
recycling
reuse
of
resources.
Owing
their
excellent
chemical,
physical,
biological
properties,
nanomaterials
play
an
important
role
when
integrated
into
water/wastewater
technologies.
Black
phosphorus
(BP)
is
a
potential
nanomaterial
candidate
for
treatment,
especially
its
monolayer
2D
derivative
called
phosphorene.
Phosphorene
offers
relative
adjustability
direct
bandgap,
high
charge
carrier
mobility,
improved
in-plane
anisotropy
compared
most
extensively
studied
nanomaterials.
In
this
study,
we
examined
physical
chemical
characteristics
synthetic
processes
BP
We
provide
overview
latest
advancements
main
applications
phosphorene
which
categorized
as
photocatalytic,
adsorption,
membrane
filtration
processes.
Additionally,
explore
existing
integration
technologies
prospects
future
research
field.
summary,
review
highlights
ongoing
necessity
significant
on
applications.
