ChemistrySelect,
Journal Year:
2024,
Volume and Issue:
9(39)
Published: Oct. 1, 2024
Abstract
Previously,
various
approaches
and
methods
have
been
developed
for
the
construction
of
high
performance
perovskite
solar
cells
(PSCs).
The
lead
(Pb)‐based
PSCs
demonstrated
excellent
but
suffers
from
low
stability
presence
toxic
Pb.
Thus,
a
rapid
surge
in
development
Pb
free
has
observed.
Recently,
elements
such
as
germanium
(Ge),
bismuth,
tin
antimony
based
materials
were
adopted
absorber
materials.
Among
these,
Ge
halide
received
significant
attention
PSCs.
Despite
exceptional
optoelectronic
properties
Ge‐based
structures,
efficiency
resulting
remains
lower
compared
to
their
Pb‐based
there
interest
simulation
studies
using
cell
capacitance
simulation‐one
dimensional
(SCAPS‐1D)
method.
Numerous
reports
emerged
different
research
groups
simulating
via
SCAPS‐1D.
These
shown
promise
aiding
Pb‐free
In
this
mini‐review,
previously
reported
literature
on
experimental
SCAPS‐1D
had
amassed.
We
believe
that
present
mini
review
article
will
attract
scientific
researchers
engaged
theoretical
investigations
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(16)
Published: Jan. 11, 2024
Abstract
[4‐(3,6‐dimethyl‐9H‐carbazol‐9yl)butyl]phosphonic
acid
(Me‐4PACz)
self‐assembled
molecules
(SAM)
are
an
effective
method
to
solve
the
problem
of
buried
interface
NiO
x
in
inverted
perovskite
solar
cells
(PSCs).
However,
Me‐4PACz
end
group
(carbazole
core)
cannot
forcefully
passivate
defects
at
bottom
film.
Here,
a
Co‐SAM
strategy
is
employed
modify
PSCs.
doped
with
phosphorylcholine
chloride
(PC)
form
improve
monolayer
coverage
and
reduce
leakage
current.
The
phosphate
ions
(Cl
−
)
PC
can
inhibit
surface
defects.
Meantime,
quaternary
ammonium
Cl
fill
organic
cations
halogen
vacancies
film
enable
passivation.
Moreover,
promote
growth
crystals,
collaboratively
defects,
suppress
nonradiative
recombination,
accelerate
carrier
transmission,
relieve
residual
stress
Consequently,
modified
devices
show
power
conversion
efficiencies
as
high
25.09%
well
excellent
device
stability
93%
initial
efficiency
after
1000
h
operation
under
one‐sun
illumination.
This
work
demonstrates
novel
approach
for
enhancing
performance
PSCs
by
modifying
on
.
Nano-Micro Letters,
Journal Year:
2023,
Volume and Issue:
15(1)
Published: May 20, 2023
Abstract
Metal
halide
perovskites
have
recently
emerged
as
promising
candidates
for
the
next
generation
of
X-ray
detectors
due
to
their
excellent
optoelectronic
properties.
Especially,
two-dimensional
(2D)
afford
many
distinct
properties,
including
remarkable
structural
diversity,
high
energy,
and
balanced
large
exciton
binding
energy.
With
advantages
2D
materials
perovskites,
it
successfully
reduces
decomposition
phase
transition
perovskite
effectively
suppresses
ion
migration.
Meanwhile,
existence
a
hydrophobic
spacer
can
block
water
molecules,
thus
making
obtain
stability.
All
these
attracted
much
attention
in
field
detection.
This
review
introduces
classification
summarizes
synthesis
technology
performance
characteristics
direct
detector,
briefly
discusses
application
scintillators.
Finally,
this
also
emphasizes
key
challenges
faced
by
practical
presents
our
views
on
its
future
development.
Science,
Journal Year:
2024,
Volume and Issue:
386(6724), P. 898 - 902
Published: Nov. 21, 2024
Surface
passivation
has
driven
the
rapid
increase
in
power
conversion
efficiency
(PCE)
of
perovskite
solar
cells
(PSCs).
However,
state-of-the-art
surface
techniques
rely
on
ammonium
ligands
that
suffer
deprotonation
under
light
and
thermal
stress.
We
developed
a
library
amidinium
ligands,
interest
for
their
resonance
effect–enhanced
N–H
bonds
may
resist
deprotonation,
to
stability
layers
surfaces.
This
strategy
resulted
>10-fold
reduction
ligand
equilibrium
constant
twofold
maintenance
photoluminescence
quantum
yield
after
aging
at
85°C
illumination
air.
Implementing
this
approach,
we
achieved
certified
quasi–steady-state
PCE
26.3%
inverted
PSCs;
report
retention
≥90%
1100
hours
continuous
1-sun
maximum
point
operation
85°C.
Abstract
In
just
over
a
decade,
certified
single-junction
perovskite
solar
cells
(PSCs)
boast
an
impressive
power
conversion
efficiency
(PCE)
of
26.1%.
Such
outstanding
performance
makes
it
highly
viable
for
further
development.
Here,
we
have
meticulously
outlined
challenges
that
arose
during
the
industrialization
PSCs
and
proposed
their
corresponding
solutions
based
on
extensive
research.
We
discussed
main
in
this
field
including
technological
limitations,
multi-scenario
applications,
sustainable
development,
etc.
Mature
photovoltaic
provide
community
with
invaluable
insights
overcoming
industrialization.
upcoming
stages
advancement,
has
become
evident
addressing
concerning
long-term
stability
sustainability
is
paramount.
manner,
can
facilitate
more
effective
integration
into
our
daily
lives.
Nano-Micro Letters,
Journal Year:
2023,
Volume and Issue:
16(1)
Published: Dec. 7, 2023
Metal
halide
perovskites
have
emerged
as
promising
light-emitting
materials
for
next-generation
displays
owing
to
their
remarkable
material
characteristics
including
broad
color
tunability,
pure
emission
with
remarkably
narrow
bandwidths,
high
quantum
yield,
and
solution
processability.
Despite
recent
advances
pushed
the
luminance
efficiency
of
monochromic
perovskite
diodes
(PeLEDs)
theoretical
limits,
current
fabrication
using
spin-coating
process
poses
limitations
full-color
displays.
To
integrate
PeLEDs
into
display
panels,
it
is
crucial
pattern
red-green-blue
(RGB)
pixels,
while
mitigating
issues
such
cross-contamination
reductions
in
luminous
efficiency.
Herein,
we
present
state-of-the-art
patterning
technologies
development
PeLEDs.
First,
highlight
efficient
Second,
discuss
various
techniques
MPHs
(i.e.,
photolithography,
inkjet
printing,
electron
beam
lithography
laser-assisted
lithography,
electrohydrodynamic
jet
thermal
evaporation,
transfer
printing)
RGB
pixelated
These
can
be
classified
two
distinct
approaches:
situ
crystallization
precursors
colloidal
nanocrystals.
This
review
highlights
advancements
PeLEDs,
paving
way
integrating
panels.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
33(49)
Published: Sept. 26, 2023
Abstract
Utilizing
the
pyro‐phototronic
effect
presents
a
potent
approach
to
augment
efficacy
of
self‐powered
photodetectors
(PDs)
that
rely
on
metal
halide
perovskites
(MHPs).
Nevertheless,
has
thus
far
been
restricted
possessing
non‐centrosymmetric
crystal
structure,
limiting
their
scope
application.
This
study
introduces
universal
interfacial
(IPPE)
strategy
MHP
single
crystals
with
centrosymmetry.
The
utilization
heterojunctions
or
Schottky
junctions
resulted
in
observation
typical
four‐stage
photoresponses
rapid
speed,
thereby
significantly
enhancing
performance
PDs
and
expanding
spectral
response
range.
contact
conditions,
such
as
choice
metals
surface
smoothness,
have
an
important
impact
IPPE.
IPPE
is
versatile
technique
can
be
employed
fabricate
based
diverse
3D
2D
perovskites.
broadens
phenomenon
centrosymmetric
perovskites,
which
offer
advantages
producing
optoelectronic
devices
superior
performance.
InfoMat,
Journal Year:
2024,
Volume and Issue:
6(4)
Published: Feb. 1, 2024
Abstract
Over
the
last
decade,
perovskite
solar
cells
(PSCs)
have
drawn
extensive
attention
owing
to
their
high
power
conversion
efficiency
(single
junction:
26.1%,
perovskite/silicon
tandem:
33.9%)
and
low
fabrication
cost.
However,
short
lifespan
of
PSCs
with
initial
still
blocks
practical
applications.
This
operational
instability
may
originate
from
intrinsic
extrinsic
degradation
materials
or
devices.
Although
lifetime
has
been
prolonged
through
component,
crystal,
defect,
interface,
encapsulation
engineering,
so
on,
systematic
analysis
failure
regularity
for
perspective
devices
against
multiple
operating
stressors
is
indispensable.
In
this
review,
we
start
elaboration
predominant
pathways
mechanism
under
working
stressors.
Then
strategies
improving
long‐term
durability
respect
fundamental
materials,
interface
designs,
device
summarized.
Meanwhile,
key
results
discussed
understand
limitation
assessing
stability,
potential
applications
in
indoor
photovoltaics
wearable
electronics
are
demonstrated.
Finally,
promising
proposals,
encompassing
material
processing,
film
formation,
strengthening,
structure
designing,
encapsulation,
provided
improve
stability
promote
commercialization.
image
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(28)
Published: March 10, 2024
Abstract
The
inherent
flexibility
and
excellent
mechanical
strength
of
lead
halide
perovskite
quantum
dots
(LHP‐QDs)
films
have
attracted
much
attention
in
the
fields
flexible
lighting,
displays,
non‐planar
x‐ray
imaging,
wearable
optoelectronics.
Unfortunately,
complicated
synthesis
process
poor
stability
limit
its
practical
applications,
hence
there
is
an
urgent
need
to
develop
a
feasible
fabrication
for
attain
high
device
performance.
Herein,
molecular
level
hybridization
bridged
polysilsesquioxane
(BPSQ)
designed
as
matrix
harvest
both
organics
inorganics,
resulting
improved
interfacial
compatibility
between
CsPbBr
3
QDs
through
chemical
bond
anchoring.
@3‐aminopropyl‐triethoxysilane
(APTES)@BPSQ
showcase
bright
narrow‐band
photoluminescence,
with
photoluminescence
yield
61%
half‐peak
full
width
at
half
maximum
<17
nm.
Notably,
these
demonstrate
environmental
stability,
UV
resistance,
water
(experiencing
only
18%
decrease
luminescence
intensity
after
168
h
immersion),
high‐temperature
(withstanding
temperatures
up
500
K).
Furthermore,
white
light‐emitting
diodes
(WLEDs)
anti‐counterfeiting
patterns
been
fabricated
using
@APTES@BPSQ,
highlighting
their
wide
application
potential
devices
information
encryption.
