International Journal of Scientific Research in Science and Technology,
Journal Year:
2024,
Volume and Issue:
11(4), P. 104 - 113
Published: July 15, 2024
Due
to
their
easy
synthesis
and
exceptional
optoelectronic
characteristics,
such
as
long
carrier
diffusion
length,
high
mobility,
low
trap
density,
tuneable
absorption
edge
ranging
from
ultraviolet
(UV)
near-infrared
(NIR),
perovskite
single
crystals
have
attracted
a
lot
of
attention
in
recent
years.
These
properties
the
potential
be
used
solar
cells,
photo-detectors
(PDs),
lasers,
other
devices.
In
this
review
provides
detailed
information
about
methods
applications
crystals.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 26, 2025
The
growth
of
large
semiconductor
crystals
is
crucial
for
advancing
modern
electronics
and
optoelectronics.
While
various
crystal
techniques
have
been
developed
lead
halide
perovskites,
a
significant
challenge
remains:
as
size
increases,
performance
tends
to
deteriorate
dramatically.
This
study
addresses
the
inherent
limitations
perovskite
by
designing
novel
strategy
near-equilibrium
system
maintain
optimal
conditions
throughout
process.
consists
three
independent
units:
solution
supply
unit,
recycling
which
together
ensure
constant
concentration
temperature.
By
systematically
optimizing
temperature
control
feeding
rates,
high-quality
FAPbBr3
single
crystals,
including
notable
measuring
51
×
45
10
mm3
are
successfully
produced.
demonstrates
mobility-lifetime
product
2.83
10⁻2
cm2
V⁻¹
an
ultralow
detection
limit
319.22
pGyair,
significantly
surpassing
existing
similar
size.
approach
can
serve
universal
platform
controlled
synthesis
all
kinds
laying
foundations
their
use
in
optoelectronic
applications.
Advanced Science,
Journal Year:
2024,
Volume and Issue:
11(22)
Published: March 29, 2024
Abstract
Perovskite
single
crystals
have
attracted
tremendous
attention
owing
to
their
excellent
optoelectronic
properties
and
stability
compared
typical
multicrystal
structures.
However,
the
growth
of
high‐quality
perovskite
(PSCs)
generally
relies
on
temperature
gradients
or
introduction
additives
promote
crystal
growth.
In
this
study,
a
vacuum
evaporation
crystallization
technique
is
developed
that
allows
PSCs
be
grown
under
extremely
stable
conditions
at
constant
without
requiring
The
new
method
enables
unprecedented
quality,
is,
MAPbBr
3
exhibit
an
ultranarrow
full
width
half
maximum
0.00701°,
which
surpasses
all
previously
reported
values.
addition,
deliver
exceptional
performance,
including
long
carrier
lifetime
1006
ns,
ultralow
trap‐state
density
3.67
×
10
9
cm
−3
,
ultrahigh
mobility
185.86
2
V
−1
s
.
This
applicable
various
types
PSCs,
organic–inorganic
hybrids,
fully
inorganic
structures,
low‐dimensional
The Journal of Physical Chemistry Letters,
Journal Year:
2024,
Volume and Issue:
unknown, P. 10001 - 10008
Published: Sept. 24, 2024
Space-charge-limited
current
(SCLC)
measurements
play
a
crucial
role
in
the
electrical
characterization
of
semiconductors,
particularly
for
metal
halide
perovskites.
Accurate
reporting
and
analysis
SCLC
are
essential
gaining
meaningful
insights
into
charge
transport
defect
density
these
systems.
Unfortunately,
performing
on
perovskites
is
complicated
by
their
mixed
electronic-ionic
conductivity.
This
complexity
led
to
data
often
being
incorrectly
analyzed
using
simplified
models
unsuitable
materials
reported
without
information
about
how
were
performed.
In
light
recently
published
data,
common
challenges
perovskite
addressed,
solutions
discussed
this
paper.
The
applicability
often-used
analytical
models,
overlooked
issues
related
ionic-electronic
conductivity
perovskites,
creating
single-carrier
devices
investigated
drift-diffusion
simulations.
Finally,
guidelines
more
accurate
improved
provided.
Small,
Journal Year:
2024,
Volume and Issue:
20(48)
Published: Sept. 20, 2024
Abstract
The
advent
of
organic–inorganic
hybrid
metal
halide
perovskites
has
revolutionized
photovoltaics,
with
polycrystalline
thin
films
reaching
over
26%
efficiency
and
single‐crystal
perovskite
solar
cells
(IC‐PSCs)
demonstrating
≈24%.
However,
research
on
remains
limited,
leaving
a
crucial
gap
in
optimizing
energy
conversion.
Unlike
films,
which
suffer
from
high
defect
densities
instability,
offer
minimal
defects,
extended
carrier
lifetimes,
longer
diffusion
lengths,
making
them
ideal
for
high‐performance
optoelectronics
essential
understanding
material
behavior.
This
review
explores
the
advancements
potential
IC‐PSCs,
focusing
their
superior
efficiency,
stability,
role
overcoming
limitations
counterparts.
It
covers
device
architecture,
composition,
preparation
methodologies,
recent
breakthroughs,
emphasizing
importance
further
to
propel
IC‐PSCs
toward
commercial
viability
future
dominance
photovoltaic
technology.
Deleted Journal,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 1, 2025
Abstract
Radiation
detection
plays
a
critical
role
in
areas
such
as
homeland
security,
medical
care,
astronomical
exploration,
and
industrial
inspections.
Over
the
past
decade,
metal
halide
perovskites
(MHPs)
have
rapidly
advanced
optoelectronic
applications
including
photovoltaics,
light‐emitting
diodes
(LEDs),
photodetectors,
also
radiation
detection,
owing
to
their
high
mobility–lifetime
products,
readily
tunable
bandgap,
attenuation
coefficients.
Yet
MHPs
been
extensively
investigated
for
X‐ray
detections,
application
γ‐ray
spectrum
is
still
its
early
stages,
with
only
few
compositions
demonstrating
capabilities.
The
stringent
requirements
of
that
involves
photon
counting
post
demands
on
well‐controlled
crystal
growth
MHPs,
minimal
defects
device
fabrication
ensures
efficient
charge
collection.
This
underscores
need
further
development
MHP
techniques
defect
engineering.
In
this
review,
we
summarize
current
research
progress
room‐temperature
along
advances
synthesizing
high‐quality
crystals
fundamental
insights
gained
into
structural
properties
MHPs.
Based
latest
achievements,
discuss
challenges
potential
future
directions
continued
detectors.
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 13, 2025
Abstract
Perovskite
solar
cells
(PSCs)
are
emerging
photovoltaic
devices
renowned
for
their
high
efficiency
and
low
cost.
Efficient
stable
PSCs
depend
on
high‐quality
perovskite
films,
which
strongly
influenced
by
the
excellent
nucleation
growth.
The
choice
of
solvent
is
critical
crystallization
behavior
films.
To
improve
film
quality
address
uncontrollable
fast
crystallization,
it
essential
to
replace
traditional
dimethyl
sulfoxide
(DMSO)
solvent.
In
this
work,
tetramethylurea
(TMU)
ligand
successfully
introduced
into
DMSO
first
time.
Through
intermediate
phase
engineering,
films
optimized.
stronger
interaction
between
TMU
solutes
versus
can
effectively
delay
transition
from
phase,
yielding
with
larger
grains
lower
defects.
Finally,
optimized
maintained
stability
after
aging
150
h
under
95%
relative
humidity
(RH)
or
at
85
°C,
while
device
increased
19.54%
21.05%.
Furthermore,
exhibited
outstanding
≈1000
50%
RH.
This
research
provides
new
insights
good
example
achieving
highly
efficient
through
engineering.
Advanced Electronic Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 16, 2025
Abstract
Lead
halide
perovskites
have
shown
high
performance
in
radiation
detection
techniques
owing
to
their
excellent
optoelectronic
properties
and
stability.
However,
the
resistivity
of
CsPbBr
3
detector
is
intensively
dependent
on
growth
quality
single
crystal,
which
closely
related
temperature
gradients
or
introduction
additives.
Herein,
a
crystal
with
grown
based
proposed
temperature‐concentration
balance
(TCB)
method.
The
prepared
perfect
remains
repeated
experiments,
belongs
Pnma
space
group,
benefiting
from
effective
Based
fabricated
asymmetrical
Au‐In
electrodes
demonstrates
outstanding
linearity
under
reverse
bias.
It
exhibits
lower
dark
current
(2.66
×
10
−2
nA)
resistivity,
helps
acquire
broader
measurement
range.
Moreover,
emission
spectrum
crystals
sharp
peak
at
527
nm
narrower
full
width
half
maximum,
making
easily
couple
into
detectors.
These
findings
provide
insight
regulation
for
more
extensive
applications
future.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 17, 2025
Abstract
Flux‐regulated
crystallization
(FRC),
a
method
that
dynamically
monitors
and
adjusts
crystal
growth
from
solutions
in
real
time
using
computer
vision
feedback
control,
has
been
recently
introduced.
Using
FRC,
centimeter‐scale
perovskite
single
crystals
at
linear
rate
of
0.2
mm
h
−1
with
standard
deviation
(
σ
)
0.061
is
synthesized.
Here,
machine
learning
integrated
into
FRC
to
predict
solvent
evaporation
rates
during
time,
thus
leading
an
over
threefold
decrease
0.018
.
This
also
results
improved
reproducibility
crystallinity,
as
evidenced
by
average
full
width
half
maximum
22
±
5
arcsec
X‐ray
rocking
curve
measurements;
detectors,
sensitivity
4500
500
µC
Gy
air
cm
−2
electric
field
100
V
across
13
devices.
