As
a
medium
for
color
conversion,
quantum
dots
(QDs)
can
be
employed
in
the
display
of
full-color
GaN-based
Micro-Light-Emitting
Diodes
(µLEDs)
arrays.
Typically,
system
where
QDs
are
excited
by
UV/blue
µLEDs,
coated
onto
LED
surface.
However,
due
to
inherent
defects
and
significant
energy
loss
associated
with
this
method,
conversion
efficiency
(CCE)
is
suboptimal.
In
paper,
we
introduce
an
innovative
approach
etch
uniform
nanorod
(NR)
array
surface
µLEDs.
We
then
mix
Ag
nanoparticles
(NPs)
fill
gaps
between
nanorods.
Simultaneously,
utilize
excellent
conductivity,
transparency,
high
strength
graphene
create
transparent
conductive
electrode
on
nanopillar
This
serves
connect
individual
nanorods
enhance
current
spreading.
The
array's
structure
significantly
reduces
distance
well
(QW),
reducing
from
excitation
light
source
through
non-radiative
transfer
(NRET)
mechanism.
Additionally,
NPs
function
as
local
plasmons
(LSPs)
luminescent
systems,
further
enhancing
CCE
via
NRET
study,
compare
effects
two
types
different
absorption
resonance
peaks
device
performance.
Our
results
demonstrate
that
matching
emission
wavelength
play
more
crucial
role
composite
system.
configuration
achieves
77.78%
µLEDs
arrays,
operating
at
10
mA.
Compared
conventional
planar
µLED
spin-coated
surface,
our
proposed
method
improves
impressive
285%.
outcome
underscores
contribution
NR
LSPs
QD-
Nanoscale Advances,
Год журнала:
2024,
Номер
6(3), С. 782 - 791
Опубликована: Янв. 1, 2024
The
PLQY
of
perovskite
quantum
dots
increases
when
blended
with
Au
nanoparticles,
primarily
due
to
accelerated
radiative
recombination.
These
nanocompositions
are
employed
in
light-emitting
diodes
as
performance-enhancing
color
conversion
layers.
The
technology
of
RGBY
micro
resonant
cavity
light
emitting
diodes
(micro-RCLEDs)
based
on
quantum
dots
(QDs)
is
considered
one
the
most
promising
approaches
for
full-color
displays.
In
this
work,
we
propose
a
novel
structure
combining
high
color
conversion
efficiency
(CCE)
QD
photoresist
(QDPR)
layer
(CCL)
with
blue
RCLEDs,
incorporating
an
ultra-thin
yellow
filter.
additional
TiO
Advanced Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Сен. 12, 2024
Monolithic
integration
of
color-conversion
materials
onto
blue-backlight
micro-light-emitting-diodes
(micro-LEDs)
has
emerged
as
a
promising
strategy
for
achieving
full-color
microdisplay
devices.
However,
this
approach
still
encounters
challenges
such
the
leakage
and
poor
fabrication
yield
rate
due
to
unsatisfied
quantum
dot
(QD)
material
process.
Here,
monolithic
0.39-inch
micro-display
screens
displaying
colorful
pictures
videos
are
demonstrated,
which
enabled
by
creating
interfacial
chemical
bonds
wafer-scale
adhesion
sub-5
µm
QD-pixels
on
micro-LED
wafer.
The
ligand
molecule
with
chlorosulfonyl
silane
groups
is
selected
synthesis
surface
treatment
material,
facilitating
preparation
high-efficiency
QD
photoresist
formation
robust
pixel
integration.
This
leading
record
in
devices
highest
brightness
larger
than
400
thousand
nits,
ultrahigh
resolution
3300
PPI,
wide
color
gamut
130.4%
NTSC,
ultimate
performance
service
life
exceeding
1000
h.
These
results
extend
mature
integrated
circuit
technique
into
manufacture
device,
also
lead
road
industrialization
process
micro-LEDs.
Journal of the Society for Information Display,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 22, 2025
Abstract
This
study
explores
the
application
of
lift‐off
process
for
patterning
quantum
dot
(QD)
pixels
using
CdSe/ZnS
core‐shell
colloidal
QDs.
The
evaluation
influence
different
solvent
and
binder
systems
on
effectiveness
pixelation
is
detaily
discussed.
By
optimizing
combination,
fabrication
multi‐color
QD
patterns
with
pixel
sizes
ranging
from
5
to
200
μm
were
demonstrated,
achieving
blue
light
conversion
efficiencies
exceeding
18%
25%
red
green
pixels.
It
also
improved
uniformity,
stability,
resolution,
lying
foundation
development
ultra‐high‐resolution,
Micro‐LED
display.
However,
challenges
remain
in
maximizing
utilization
packaging
layers.
Future
research
will
aim
develop
high‐quality
inks
suitable
photoresist
optimize
system
further
enhance
performance
stability
QD‐based
displays.
Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 9, 2025
Abstract
In
this
article,
color
filters
(CFs)
emitting
linearly
polarized
light,
achieving
both
full‐color
and
pixel‐level
precision,
which
can
simultaneously
offer
high
saturation,
ambient
contrast
ratio
(ACR),
efficiency
for
modern
displays,
are
disclosed.
The
quantum
rods
(QRs)
exhibit
a
narrow‐band
emission
that
effectively
mitigates
traditional
challenges
of
purity
light
losses.
Specially
designed
ligands
on
the
QR
surfaces
allow
higher
load
material
into
polymer
matrix
with
uniform
alignment.
Optimizing
inkjet
printing,
photolithography,
photoalignment
processes,
remarkable
degree
polarization
(DOP)
0.65
is
achieved
precisely
patterned
red
green
CFs.
Due
to
unidirectionally
aligned
QRs,
liquid
crystal
display
(LCD)
equipped
QRCF
shows
enhanced
ACR,
highlighting
advantages
their
application
in
next‐generation
displays
over
other
types
photoluminescence
ACS Applied Optical Materials,
Год журнала:
2024,
Номер
2(7), С. 1277 - 1286
Опубликована: Март 22, 2024
This
study
examines
the
brightness
conversion
of
green
and
red
quantum
dot
(QD)
color
converters
(QDCCs)
utilizing
blue-light
panels
at
437,
450,
460
nm.
The
are
separately
tested
under
same
electrical
power
optical
power.
measurement
results
indicate
that,
as
wavelength
blue
light
becomes
shorter,
efficiency
QD
emission
increases,
resulting
in
a
higher
converted
QDs.
follows
order
437
>
450
However,
due
to
lower
energy
longer-wavelength
light,
more
photons
generated
per
unit
(radiant
flux)
compared
shorter-wavelength
light.
Therefore,
difference
from
is
not
significant.
For
instance,
stimulated
by
nm
only
slightly
lower,
approximately
4%,
that
Considering
short-wavelength
can
potentially
damage
biological
tissues,
especially
eyes,
development
will
become
focal
point
for
next
generation
QD-based
micro-LED
displays,
which
be
promising
technology
augmented
reality
(AR)
virtual
(VR)
display
system.
We
computed
gamut
QDCCs
nm;
yellow
filter
(Y-CF)/QDCCs
115.7%,
112.4%,
104.7%
relative
National
Television
System
Committee
(NTSC).
In
addition,
filters
(G/R-CF)/QDCCs
produce
values
117.0%,
114.2%,
110.0%
NTSC,
respectively.
Finally,
matter
coverage,
it
evident
excitation
source
with
longer
essential
achieving
full
coverage
region
within
NTSC
or
BT2020
gamut.
It
effectively
solve
shifts
color.
ACS Photonics,
Год журнала:
2024,
Номер
11(8), С. 2981 - 2991
Опубликована: Июль 29, 2024
The
development
of
full-color
micro-LED
displays
has
driven
research
on
color
conversion
technology.
Although
various
methods
have
been
proposed,
practical
fine-pitch
posed
a
challenge
owing
to
the
insufficient
efficiency
and
low
absorption
in
slim
thickness
material
patterns
serious
optical
crosstalk
between
adjacent
subpixels.
Herein,
we
introduce
prototype
display
featuring
high-resolution
colloidal
quantum
dot
(QD)/TiO2
nanoparticle
composite
arrays
with
an
active-matrix
blue
light
module.
This
innovative
QD
is
prepared
using
hybrid
method
involving
ligand-selective
dispersion
scattering
particles,
allowing
considerable
increase
pattern
resolution
efficiency.
Moreover,
structure
design
distributed
Bragg
reflector
dual-site
light-confining
matrix
employed,
resulting
high
gamut
92.8%
regard
National
Television
Standards
Committee.
Finally,
0.7
in.
demonstrated
960
×
540
(1588
ppi)
for
first
time.
