National Science Review,
Journal Year:
2024,
Volume and Issue:
11(6)
Published: March 23, 2024
ABSTRACT
Multi-boron-embedded
multiple
resonance
thermally
activated
delayed
fluorescence
(MR-TADF)
emitters
show
promise
for
achieving
both
high
color-purity
emission
and
exciton
utilization
efficiency.
However,
their
development
is
often
impeded
by
a
limited
synthetic
scope
excessive
molecular
weights,
which
challenge
material
acquisition
organic
light-emitting
diode
(OLED)
fabrication
vacuum
deposition.
Herein,
we
put
forward
B‒N
covalent
bond-involved
π-extension
strategy
via
post-functionalization
of
MR
frameworks,
leading
to
the
generation
high-order
B/N-based
motifs.
The
structurally
electronically
extended
π-system
not
only
enhances
rigidity
narrow
linewidth
but
also
promotes
reverse
intersystem
crossing
mitigate
efficiency
roll-off.
As
illustrated
examples,
ultra-narrowband
sky-blue
(full-width
at
half-maximum
as
small
8
nm
in
n-hexane)
have
been
developed
with
multi-dimensional
improvement
photophysical
properties
compared
precursor
emitters,
enables
narrowband
OLEDs
external
quantum
efficiencies
(EQEmax)
up
42.6%,
company
alleviated
decline
brightness,
representing
best
reported
single-host
OLEDs.
success
these
highlights
effectiveness
our
design
advanced
MR-TADF
confirms
extensive
potential
high-performance
optoelectronic
devices.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(30)
Published: May 2, 2024
Abstract
Ultrapure
deep‐blue
emitters
are
in
high
demand
for
organic
light‐emitting
diodes
(OLEDs).
Although
color
coordinates
serve
as
straightforward
parameters
assessing
purity,
precise
control
over
the
maximum
wavelength
and
full‐width
at
half‐maximum
is
necessary
to
optimize
OLED
performance,
including
luminance
efficiency
luminous
efficacy.
Multiple‐resonance
(MR)
promising
candidates
achieving
ideal
luminescence
properties;
consequently,
a
wide
variety
of
MR
frameworks
have
been
developed.
However,
most
these
experience
displacement
from
color,
which
limits
their
practical
applicability.
Therefore,
molecular
design
that
compatible
with
modulating
energy
levels
output
particularly
valuable.
Here,
it
demonstrated
azepine
donor
unit
induces
an
appropriate
blue‐shift
emission
while
maintaining
efficient
characteristics,
photoluminescence
quantum
yield,
narrow
emission,
fast
reverse
intersystem
crossing
rate.
OLEDs
using
newly
developed
based
on
ν
‐DABNA
framework
simultaneously
exhibit
≈30%,
efficacy
≈20
lm
W
−1
,
exceptional
purity
Commission
Internationale
de
l’Éclairage
low
(0.14,
0.06),
notably
operational
stability.
These
results
demonstrate
unprecedentedly
compared
those
observed
previously
reported
emitters.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(35)
Published: June 3, 2024
The
development
of
deep-blue
organic
light-emitting
diodes
(OLEDs)
featuring
high
efficiency
and
narrowband
emission
is
great
importance
for
ultrahigh-definition
displays
with
wide
color
gamut.
Herein,
based
on
the
nitrogen-embedding
strategy
modifying
short
range
charge
transfer
excited
state
energies
multi-resonance
(MR)
thermally
activated
delayed
fluorescence
(TADF)
emitters,
we
introduce
one
or
two
nitrogen
atoms
into
central
benzene
ring
a
versatile
boron-embedded
1,3-bis(carbazol-9-yl)benzene
skeleton.
This
approach
resulted
in
stabilization
highest
occupied
molecular
orbital
energy
levels
formation
intramolecular
hydrogen
bonds,
thus
systematic
hypsochromic
shifts
narrowing
spectra.
In
toluene
solution,
heterocyclic-based
MR-TADF
molecules,
Py-BN
Pm-BN,
exhibit
emissions
photoluminescence
quantum
yields
93
%
94
%,
narrow
full
width
at
half
maximum
14
13
nm,
respectively.
A
hyperfluorescent
OLED
exhibited
external
27.7
desired
purity
Commission
Internationale
de
L'Eclairage
(CIE)
coordinates
(0.150,
0.052).
These
results
demonstrate
significant
potential
deep
blue
emitters.
Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(40)
Published: Aug. 19, 2023
The
current
availability
of
multi-resonance
thermally
activated
delayed
fluorescence
(MR-TADF)
materials
with
excellent
color
purity
and
high
device
efficiency
in
the
deep-blue
region
is
appealing.
To
address
this
issue
emerged
nitrogen/carbonyl
MR-TADF
system,
we
propose
a
spiro-lock
strategy.
By
incorporating
spiro
functionalization
into
concise
molecular
skeleton,
series
emitters
(SFQ,
SOQ,
SSQ,
SSeQ)
can
enhance
rigidity,
blue-shift
emission
peak,
narrow
band,
increase
photoluminescence
quantum
yield
by
over
92
%,
suppress
intermolecular
interactions
film
state.
referent
CZQ
without
structure
has
more
planar
its
bluer
solution
state
redshifts
40
nm
serious
spectrum
broadening
low
PLQY
As
result,
SSQ
achieves
an
external
25.5
%
peak
at
456
small
full
width
half
maximum
31
simple
unsensitized
device,
significantly
outperforming
CZQ.
This
work
discloses
importance
spiro-junction
modulating
emitters.
Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(32)
Published: June 13, 2023
Building
blocks
and
heteroatom
alignments
are
two
determining
factors
in
designing
multiple
resonance
(MR)-type
thermally
activated
delayed
fluorescence
(TADF)
emitters.
Carbazole-fused
MR
emitters,
represented
by
CzBN
derivatives,
the
of
ν-DABNA
star
series
MR-TADF
emitters
that
show
impressive
performances
from
aspects
building
alignments,
respectively.
Herein,
a
novel
analog,
Π-CzBN,
featuring
alignment
is
developed
via
facile
one-shot
lithium-free
borylation.
Π-CzBN
exhibits
superior
photophysical
properties
with
photoluminescence
quantum
yield
close
to
100
%
narrowband
sky
blue
emission
full
width
at
half
maximum
(FWHM)
16
nm/85
meV.
It
also
gives
efficient
TADF
small
singlet-triplet
energy
offset
40
meV
fast
reverse
intersystem
crossing
rate
2.9×105
s-1
.
The
optimized
OLED
using
as
emitter
achieves
an
exceptional
external
efficiency
39.3
low
roll-off
20
1000
cd
m-2
495
nm
FWHM
21
nm/106
meV,
making
it
one
best
reported
devices
based
on
comprehensive
performance.
Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(48)
Published: Oct. 9, 2023
Extending
the
π-skeletons
of
multi-resonance
(MR)
organoboron
emitters
can
feasibly
modulate
their
optoelectronic
properties.
Here,
we
first
adopt
indolo[3,2-b]indole
(32bID)
segment
as
a
multi-nitrogen
bridge
and
develop
high-efficiency
π-extended
narrowband
green
emitter.
This
moiety
establishes
not
only
high-yield
one-shot
multiple
Bora-Friedel-Crafts
reaction
towards
MR
skeleton,
but
compact
N-ethylene-N
motif
for
red-shifted
emission.
An
emission
peak
at
524
nm,
small
full
width
half
maximum
25
nm
high
photoluminescence
quantum
yield
96
%
are
concurrently
obtained
in
dilute
toluene.
The
extended
molecular
plane
also
results
large
horizontal
emitting
dipole
orientation
ratio
87
%.
A
external
efficiency
(EQE)
36.6
power
135.2
lm/W
thereafter
recorded
corresponding
device,
allowing
low
roll-off
with
EQEs
34.5
28.1
luminance
1,000
cd/m2
10,000
,
respectively.
Journal of Chemical Theory and Computation,
Journal Year:
2023,
Volume and Issue:
20(2), P. 902 - 913
Published: Nov. 22, 2023
The
inversion
of
the
lowest
singlet
and
triplet
excited
states,
observed
in
several
triangle-shaped
organic
molecules
containing
conjugated
carbon
nitrogen
atoms,
is
an
astonishing
result
that
implies
breakdown
Hund's
rule.
phenomenon
attracted
interest
for
its
potential
toward
harvesting
LEDs.
On
a
more
fundamental
vein,
singlet–triplet
(ST)
sheds
new
light
on
role
electron
correlations
excited-state
landscape
π-conjugated
molecules.
Relying
celebrated
Pariser–Parr–Pople
model,
simplest
model
correlated
electrons
systems,
we
demonstrate
ST
does
not
require
nor
any
specific
molecular
symmetry.
Indeed,
strictly
non-overlapping
HOMO
LUMO
orbitals
but
rather
small
gap
exchange
integral
between
frontier
orbitals.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
36(2)
Published: Nov. 16, 2023
Abstract
The
spectral
narrowing
engineering
of
pure‐organic
emitters
attracts
great
research
interests
in
realizing
high
color
purity.
Here,
the
adjusted
medium‐range
charge
transfer
(MCT)
strategy
TIC‐BO
with
rigid
planar
structure
by
fusing
two
typical
UV‐emitting
multiple
resonance
(MR)
fragments
via
ingenious
double‐halide
cyclized
coupling
reaction
is
reported.
resulting
MCT
nature
shows
efficient
violet‐blue
emission
dilute
toluene
and
evaporated
host–guest
films,
desirably
narrowed
spectra
are
achieved
suppression
structural
relaxation
shortened
states.
single‐doped
device
as
emitter
electroluminescence
peaked
at
428
nm
full‐width
half‐maximum
43
(0.28
eV),
Commission
Internationale
de
l’Éclairage
coordinates
(0.160,
0.050).
A
maximum
external
quantum
efficiency
(EQE
max
)
20.50%
achieved,
which
among
best
results
corresponding
emitting
region.
Further
introduction
a
stronger
electron‐donating
carbazole
group
makes
TIC‐BNO
exhibit
red‐shifted
sky‐blue
MR‐dominant
properties,
good
performance
received
EQE
34.58%.
outstanding
performances
successfully
demonstrate
significance
prospect
proposed
molecular
design
strategy.
