Solar RRL,
Journal Year:
2023,
Volume and Issue:
8(2)
Published: Nov. 29, 2023
The
power
conversion
efficiency
of
inverted
perovskite
solar
cells
(PSCs)
based
on
p–i–n
structure
exceeds
25%,
largely
owning
to
the
persistent
improvement
quality
heterojunction
interface.
Nickel
oxide
(NiO
x
)
low
cost
and
superior
chemical
stability
is
one
most
promising
candidates
as
hole‐transport
material
that
suitable
for
large‐scale
fabrication.
Meanwhile,
certified
inorganic
NiO
‐based
PSCs
surpasses
25%
via
improving
poor
buried
interface
contact,
which
originated
from
large
offset
valence
band
energy
level,
well
high
density
interfacial
defects
between
layer
film.
In
this
review,
development
progress
in
engineering
are
systematically
summarized,
including
strategies
level
alignment
defect
passivation,
adopted
promote
better
suppress
defect‐assisted
nonradiative
recombination
at
On
basis
deeper
understanding
features,
some
novel
materials
methods
modification
can
be
rationally
designed.
Perspectives
future
efficient
stable
modules
tandem
also
provided.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 16, 2025
Abstract
Perovskite
technologies
has
taken
giant
steps
on
its
advances
in
only
a
decade
time,
from
fundamental
science
to
device
engineering.
The
possibility
exploit
this
technology
thin
flexible
substrate
gives
an
unbeatable
power
weight
ratio
compares
similar
photovoltaic
systems,
opening
new
possibilities
and
integration
concepts,
going
building
integrated
applied
photovoltaics
(BIPV,
BAPV)
internet
of
things
(IoT).
In
perspective,
the
recent
progress
perovskite
solar
substrates
are
summarized,
focusing
challenges
that
researchers
face
upon
using
substrates.
A
dig
into
material
is
necessary
understand
what
kind
mechanisms
limiting
efficiency
compare
rigid
substrates,
which
physical
mechanism
limits
upscaling
substrate.
Furthermore,
overview
stability
test
modules
will
be
described,
suggesting
common
standard
procedure
guidelines
follow,
showing
additional
issues
bending,
how
prevent
degradation
providing
ad‐hoc
encapsulation.
Finally,
devices
market
shown,
giving
outline
exploited
still
missing
need
stakeholders’
attention.
Advanced Materials Technologies,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 20, 2025
Abstract
The
urgency
for
a
sustainable
mitigation
of
the
environmental
impacts
caused
by
climate
change
highlights
importance
renewable
energy
technologies
to
fight
this
challenge.
Perovskite
solar
cells
(PSCs)
emerge
as
promising
alternative
traditional
photovoltaic
(PV)
due
their
unprecedented
increase
in
efficiency
(currently
peaking
at
26.95%)
and
long‐term
stability
proven
successful
completion
industry
relevant
International
Electrotechnical
Commission
(IEC)
testing
standards.
Flexible
PSCs
(f‐PSCs)
offer
significant
advantages
such
lightweight
high
power‐per‐weight
ratio,
mechanical
flexibility,
throughput
roll‐to‐roll
(R2R)
manufacturing.
These
make
f‐PSCs
ideal
implementation
various
applications
areas,
wearable
electronics,
portable
devices,
space
PV,
building‐
or
automotive‐integrated
PVs,
more.
Notably,
efficiencies
over
23%
now
mark
milestone
f‐PSCs,
demonstrating
competitiveness
with
rigid
panels.
This
review
explores
breakthroughs
focusing
on
flexible
substrates,
electrode
materials,
perovskite
inks,
encapsulation
strategies.
It
also
covers
recent
advancements
studies
fabricated
scalable
deposition
methods
emphasizes
interfacial
engineering
enhancing
durability.
concludes
summary
key
findings,
remaining
challenges,
perspectives
market
uptake
f‐PSCs.
The
p-i-n
type
perovskite
solar
cells
with
a
nickel
oxide
(NiOx)
hole
transport
layer
in
combination
self-assembled
monolayers
(SAMs)
have
high
power
conversion
efficiency
(PCE)
of
over
26%.
surface
properties
the
SAM
significant
impact
on
growth
and
crystallization
film.
In
meanwhile,
defects
formed
during
thermal
annealing
at
interface
would
act
as
charge
recombination
centers,
decreasing
device
performance
stability.
To
address
these
issues,
this
work
introduces
3,4,5-trifluorophenylboronic
acid
(3,4,5-3FPBA)
interfacial
modification
to
improve
buried
that
enable
better
With
3,4,5-3FPBA
layer,
based
composition
Cs0.05(FA0.98MA0.02)0.95Pb(I0.95Br0.05)3,
increased
from
21.99%
24.02%.
A
similar
improvement
was
observed
for
Cs0.05FA0.82MA0.13Pb(I0.85Br0.15)3,
where
21.87%
22.76%.
universality
has
been
confirmed.
addition,
resulting
showed
improved
stability,
maintaining
75%
its
initial
after
500
h
continuous
heating
85
°C
unencapsulated
devices.
Energy & Environmental Science,
Journal Year:
2023,
Volume and Issue:
16(9), P. 3711 - 3733
Published: Jan. 1, 2023
We
examine
drivers
and
benefits
of
adopting
circular
economy
practices
for
perovskite
solar
cells
(PSCs),
a
promising
low-cost
PV
technology,
identifying
key
challenges
reviewing
research
progress
towards
achieving
PSCs.
Polymers,
Journal Year:
2023,
Volume and Issue:
15(15), P. 3234 - 3234
Published: July 29, 2023
Printing
electronics
incorporates
several
significant
technologies,
such
as
semiconductor
devices
produced
by
various
printing
techniques
on
flexible
substrates.
With
the
growing
interest
in
printed
electronic
devices,
new
technologies
have
been
developed
to
make
novel
with
inexpensive
and
large-area
techniques.
This
review
article
focuses
most
recent
developments
photonic
devices.
Photonics
optoelectronic
systems
may
now
be
built
utilizing
materials
specific
optical
properties
3D
designs
achieved
through
additive
printing.
Optical
architected
that
can
their
entirety
are
among
promising
future
research
topics,
platforms
for
multi-material
processing
print
enormous
volumes
at
a
high
resolution
while
also
maintaining
throughput.
Significant
advances
innovative
printable
create
opportunities
functional
act
efficiently,
wearable
sensors,
integrated
optoelectronics,
consumer
electronics.
provides
an
overview
of
materials,
methods,
uses
Journal of Optics,
Journal Year:
2024,
Volume and Issue:
26(5), P. 053001 - 053001
Published: March 13, 2024
Abstract
Perovskite
solar
cells
(PSCs)
have
gained
intensive
attention
as
promising
next-generation
photovoltaic
technologies
because
of
their
ever-increasing
power
conversion
efficiency,
inexpensive
material
components,
and
simple
fabrication
method
solution
processing.
The
efficiency
long-term
stability
PSCs
gradually
grown
in
recent
years,
steady
progress
has
been
made
towards
the
large
area
perovskite
modules.
This
review
summarizes
representative
works
on
that
were
globally
published
recently
from
viewpoints
stability,
large-scale
production.
Further,
we
emphasize
current
main
obstacles
high-throughput
manufacturing
provide
a
quick
overview
several
prospective
researches.
Small,
Journal Year:
2023,
Volume and Issue:
20(1)
Published: Aug. 30, 2023
Abstract
For
metal
halide
perovskite
solar
cells,
bidentate
passivation
(BP)
is
highly
effective,
but
currently,
only
sites
rather
than
molecular
environments
are
being
considered.
Here,
the
authors
report
an
effective
approach
for
high‐performance
fully
printable
mesoscopic
cells
(FP‐PSCs)
through
BP
strategy
using
multidentate
molecule
6‐chloropurine
(6‐CP).
By
utilizing
density
functional
theory
(DFT)
calculations,
X‐ray
photoelectron
spectroscopy
(XPS),
and
Fourier
transform
infrared
(FTIR)
characterizations,
competition
mechanism
identified
of
between
chlorine
atom
neighboring
nitrogen
imidazole
pyrimidine
rings.
Through
adjacent
in
imidazole,
power
conversion
efficiency
(PCE)
pristine
samples
significantly
enhanced
from
16.25%
to
17.63%
with
6‐CP.
The
formation
enhances
interfacial
hole
selectivity
charge
transfer,
suppresses
nonradiative
recombination,
improving
device
stability
under
high
humidity
conditions.
two
aromatic
cycles
provides
a
path
designing
passivants
selecting
pathways
theoretical
limits.
