Angewandte Chemie,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 26, 2024
Abstract
Mn(II)‐based
halides
have
recently
garnered
significant
interest
as
emerging
luminescence
materials
for
diverse
photonic
applications.
Generally,
Mn(II)
hybrids
with
tetrahedral
coordination
show
green
emission,
however,
ones
octahedral
give
red
emission.
Herein,
we
design
the
synthesis
of
pseudohalide
hybrids,
(RPh
3
P)
2
MnBr
x
NCS
4−x
(R=phenyl,
pentyl
or
methyl;
Ph
P=triphenylphosphine;
=1–3),
achieved
by
gradually
substituting
bromides
pseudohalides
(NCS
−
).
Compared
to
green‐emitting
A
4
(512
nm),
mixed
exhibit
significantly
distorted
[MnBr
4−X
]
tetrahedra
high
dipole
moment,
thus
leading
distinct
Stokes
shift
energies
and
noticeable
emission
in
range
549–613
nm.
Furthermore,
photoluminescence
quantum
yield
(PLQY)
these
correlates
strongly
pair
correlation
function
ions,
specifically
Mn⋅⋅⋅Mn
distance.
These
findings
highlight
critical
role
moments
determining
properties
expand
luminescent
family
hybrids.
Advanced Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Авг. 5, 2024
Organic-inorganic
hybrid
manganese(II)
halides
(OIMnHs)
have
garnered
tremendous
interest
across
a
wide
array
of
research
fields
owing
to
their
outstanding
optical
properties,
abundant
structural
diversity,
low-cost
solution
processibility,
and
low
toxicity,
which
make
them
extremely
suitable
for
use
as
new
class
luminescent
materials
various
optoelectronic
applications.
Over
the
past
years,
plethora
OIMnHs
with
different
dimensionalities
multifunctionalities
such
efficient
photoluminescence
(PL),
radioluminescence,
circularly
polarized
luminescence,
mechanoluminescence
been
newly
created
by
judicious
screening
organic
cations
inorganic
Mn(II)
polyhedra.
Specifically,
through
precise
molecular
engineering,
series
near-unity
PL
quantum
yields,
high
anti-thermal
quenching
excellent
stability
in
harsh
conditions
devised
explored
applications
light-emitting
diodes
(LEDs),
X-ray
scintillators,
multimodal
anti-counterfeiting,
fluorescent
sensing.
In
this
review,
latest
advancements
development
are
summarized,
covers
from
fundamental
physicochemical
properties
advanced
applications,
an
emphasis
on
functionality
design
especially
LEDs
detection
imaging.
Current
challenges
future
efforts
unlock
potentials
these
promising
also
envisioned.
Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 14, 2025
Metal
halide
perovskites
and
their
derivatives
are
gaining
significant
attention
as
photoluminescent
materials
due
to
exceptional
light-emitting
properties.
However,
most
research
has
concentrated
on
electroluminescence
photoluminescence,
there
remains
a
substantial
gap
in
the
exploration
of
mechanoluminescence
(ML)
properties
perovskites,
making
this
field
largely
uncharted.
ML
is
an
ancient
intriguing
luminescent
phenomenon
that
occurs
when
material
subjected
mechanical
forces.
Here,
discovery
first
organic-inorganic
hybrid
terbium
(Tb3+)-based
metal
halide,
type
perovskite
derivative,
which
exhibits
notable
reported.
Through
orthogonal
design,
critical
roles
played
by
molecular
geometry
metal-site
ions
achieving
remarkable
halides
identified.
Inorganic Chemistry,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 14, 2025
Organic-inorganic
hybrid
Sn(IV)-based
metal
halides
have
received
wide
attention
due
to
their
excellent
structural
stability.
However,
realizing
red-emitting
with
high
stability
and
efficient
photoluminescence
(PL)
efficiency
remains
challenging.
Here,
a
stable
organic-inorganic
halide
(C8H10O2N)2SnCl6
zero-dimensional
(0D)
structure
has
been
obtained,
which,
however,
displays
poor
PL
properties
the
inert
expression
of
Sn4+-4d10
electrons
intrinsic
indirect
band
gap
feature.
To
address
above
challenges,
Te4+
an
active
5s2
lone
pair
is
embedded
into
lattice
(C8H10O2N)2SnCl6,
as
result,
5%Te4+-doped
direct
exhibits
broadband
deep-red
emission
(∼688
nm)
(∼53%).
Experimental
calculated
results
reveal
that
embedding
can
effectively
regulate
facilitate
transformation
from
structure,
thereby
leading
radiative
recombination.
Benefiting
merits,
high-efficiency
white
light-emitting
diode
(WLED)
fabricated
using
Te4+-doped
ultrahigh
color
rendering
index
(CRI)
up
94.5,
suggesting
great
potential
this
material
for
solid-state
lighting.
This
work
provides
significant
insight
design
highly
phosphors
halides.
The Journal of Physical Chemistry Letters,
Год журнала:
2025,
Номер
unknown, С. 2771 - 2777
Опубликована: Март 7, 2025
Chiral
lead
halide
molecular
clusters
(MCs)
consisting
of
PbBr2,
neutral
achiral
butylamine
(BTYA),
and
chiral
methylbenzylamine
[(R/S)-MBA]
with
unique
optical
properties
in
both
the
solution
solid
states
have
been
synthesized
using
ligand-assisted
reprecipitation
depositing,
separately.
Ultraviolet–visible
(UV–vis)
electronic
absorption
photoluminescence
(PL)
spectra
show
first
band
sharp
blue
emission
MCs
that
peaked
at
404
412
nm,
respectively,
films.
The
asymmetry
factor
|glum|
is
1.04
×
10–3
2.01
film
state
room
temperature,
indicating
excellent
circularly
polarized
luminescence
(CPL)
properties.
This
pronounced
attributed
to
transfer
from
ligand
BTYA-capped
PbBr2
framework
due
MBA
coordination
Pb2+.
samples
exhibited
ambient
stability
for
over
1
month,
primarily
strong
BTYA–PbBr2
coordination.
maintained
their
structure
CPL
state,
which
important
photonic
applications.
Laser & Photonics Review,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 23, 2025
Abstract
As
the
kernel
component
of
X‐ray
imaging
systems,
mainstream
flat‐panel
detectors
suffer
from
image
distortion
and
blurring
when
applied
to
irregular
shaped
objects,
because
non‐conformal
collocation
between
detector
object.
Herein,
by
taking
advantage
robust
glass‐forming
capability
versatile
processability
(TPT)
2
MnBr
4
(TPT
=
propyltriphenylphosphonium)
scintillator,
reconfigurable
scintillation
screen
for
conformal
is
explored.
Compared
flexible
polymer
screens
doped
with
micro‐/nanoparticles,
melt‐casted
large‐area
(20
×
20
cm
)
are
homogeneous
immune
light
scattering,
thus
manifesting
optical
transmittance
above
80%
in
525−800
nm
range
high
spatial
resolution
25.5
lp
mm
−1
.
More
impressively,
can
be
reconfigured
shape
near
its
glass
transition
temperature,
realizing
continuous
conformance
or
changeable
objects.
Exemplified
a
flexed
elbow
joint
circuit
variational
shapes,
demonstrate
superiorities
both
clarity
(15
versus
3
imaging)
reduction
radiation
dosage.
That,
plus
scalable
fabrication
process
cost‐effective
raw
materials,
will
promise
great
potential
customized
medical
diagnostics
industrial
inspection.
Nature Communications,
Год журнала:
2025,
Номер
16(1)
Опубликована: Март 14, 2025
Chiral
organic-inorganic
hybrid
metal
halides
as
promising
circularly
polarized
luminescence
(CPL)
emitter
candidates
hold
great
potential
for
high-definition
displays
and
future
spin-optoelectronics.
The
recent
challenge
lies
primarily
in
developing
high-performance
red
CPL
emitters.
Here,
coupling
the
f-f
transition
characteristics
of
trivalent
europium
ions
(Eu3+)
with
chirality,
we
construct
chiral
Eu-based
halides,
(R/S-3BrMBA)3EuCl6,
which
exhibit
strong
predictable
emission
large
photoluminescence
quantum
yield
(59.8%),
narrow
bandwidth
(≈2
nm),
long
lifetime
ms),
together
dissymmetry
factor
|glum|
1.84
×
10−2.
Compared
previously
reported
these
show
highest
brightness.
Furthermore,
degree
polarization
(R/S-3BrMBA)3EuCl6
can
be
manipulated
by
external
magnetic
field.
Particularly,
benefiting
from
field-generated
Zeeman
splitting
spin
mixing
at
exciton
states,
an
anomalously
positive
magneto-photoluminescence
was
observed
room
temperature.
This
work
provides
efficient
strategy
constructing
both
pure-red
It
also
opens
door
rare-earth
toward
optoelectronic
spintronic
applications.
perovskites
are
materials
luminescence.
Here
authors
present
leading
to
magneto-chiroptical
properties.
Inorganic Chemistry Frontiers,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 1, 2025
In
this
study,
two
pairs
of
0D
chiral
copper
iodide
clusters
were
synthesized.
The
structural
rigidity
is
increased
by
halogen
modulation
to
obtain
a
near
unity
PLQY.
applications
in
white
LED
and
X-ray
imaging
are
extremely
promising.
