The
technological
requirements
are
changing,
and
there
is
a
push
for
more
effective
energy
production
conversion
technologies
as
result
of
social
desire
sustainable
renewable
sources.
Solar
conversion,
particularly
photovoltaic
cells,
offers
potentially
helpful
solution
in
this
situation.
Power
efficiency
(PCE)
perovskite
solar
cells
(PSCs)
has
been
reported
to
have
increased
significantly
from
3%
26.1%.
transition
laboratory
PSCs
their
commercialization
needs
scalable
deposition
techniques,
high
at
level,
with
minimal
loss
PCE.
In
review
article,
the
fabrication
processes
modules
(PSMs)
challenges,
well
latest
developments
PSM
stability,
focused
on.
Finally,
future
prospectus
challenges
PSMs
presented.
This
will
give
us
an
overall
understanding
thin
film
coating
inside
good
insight
into
direction
development.
Advanced Materials,
Год журнала:
2024,
Номер
36(15)
Опубликована: Янв. 12, 2024
Perovskite
(PVSK)
photovoltaic
(PV)
devices
are
undergoing
rapid
development
and
have
reached
a
certified
power
conversion
efficiency
(PCE)
of
26.1%
at
the
cell
level.
Tremendous
efforts
in
material
device
engineering
also
increased
moisture,
heat,
light-related
stability.
Moreover,
solution-process
nature
makes
fabrication
process
perovskite
feasible
compatible
with
some
mature
high-volume
manufacturing
techniques.
All
these
features
render
solar
modules
(PSMs)
suitable
for
terawatt-scale
energy
production
low
levelized
cost
electricity
(LCOE).
In
this
review,
current
status
cells
(PSCs)
their
potential
applications
first
introduced.
Then
critical
challenges
identified
commercialization
propose
corresponding
solutions,
including
developing
strategies
to
realize
high-quality
films
over
large
area
further
improve
stability
meet
commercial
demands.
Finally,
directions
issues
requiring
attention
future,
mainly
focusing
on
dealing
toxicity
recycling
whole
device,
attainment
highly
efficient
perovskite-based
tandem
modules,
which
can
reduce
environmental
impact
accelerate
LCOE
reduction
put
forwarded.
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Март 12, 2024
Abstract
The
rapid
development
of
organic-inorganic
hybrid
perovskite
solar
cells
has
resulted
in
laboratory-scale
devices
having
power
conversion
efficiencies
that
are
competitive
with
commercialised
technologies.
However,
yet
to
make
an
impact
beyond
the
research
community,
translation
large-area
fabricated
by
industry-relevant
manufacturing
methods
remaining
a
critical
challenge.
Here
we
report
first
demonstration
cell
modules,
comprising
serially-interconnected
cells,
produced
entirely
using
industrial
roll-to-roll
printing
tools
under
ambient
room
conditions.
As
part
this
development,
costly
vacuum-deposited
metal
electrodes
replaced
printed
carbon
electrodes.
A
high-throughput
experiment
involving
analysis
batches
1600
20
parameter
combinations
enabled
optimisation
over
large
space.
optimised
show
up
15.5%
for
individual
small-area
and
11.0%
modules.
Based
on
work,
cost
~0.7
USD
W
−1
is
predicted
production
rate
1,000,000
m²
per
year
Australia,
potential
further
significant
reductions.
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Май 11, 2024
Can
Roll-to-Roll
technology
pave
the
way
for
perovskite
devices
to
transition
from
lab-scale
industrial
applications?
It
is
a
technique
that
has
potential
enhance
throughput,
reduce
costs,
and
accommodate
flexible
substrates.
In
system,
as
long
your
input
materials
are
continuously
topped
up,
manufacture
should
continue
indefinitely.
its
simplest
form
it
offers
premise
of
Ink-IN
/
Solar
module-OUT.
Through
this
comment,
we
emphasize
critical
need
ongoing
innovation
fully
harness
technology's
capabilities,
making
solar
energy
viable,
sustainable
option
on
global
scale.
(R2R)
coating
potentially
enhances
reduces
accommodates
substrates
fabricating
various
types
cells
modules.
Here,
authors
discuss
R2R
revolution
tackle
leap
photovoltaic
devices.
Advanced Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 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.
As
a
key
contender
in
the
field
of
photovoltaics,
third-generation
thin-film
perovskite
solar
cells
(PSCs)
have
gained
significant
research
and
investment
interest
due
to
their
superior
power
conversion
efficiency
(PCE)
great
potential
for
large-scale
production.
For
commercialization
consideration,
low-cost
scalable
fabrication
is
primary
importance
PSCs,
development
applicable
film-forming
techniques
that
meet
above
requirements
plays
role.
Currently,
large-area
films
are
mainly
produced
by
printing
techniques,
such
as
slot-die
coating,
inkjet
printing,
blade
screen-printing.
Among
these
screen
offers
high
degree
functional
layer
compatibility,
pattern
design
flexibility,
ability,
showing
promise.
In
this
work,
advanced
progress
on
applying
screen-printing
technology
fabricating
PSCs
from
technique
fundamentals
practical
applications
presented.
The
introduced
state-of-the-art
studies
different
layers
control
strategies
realize
fully
screen-printed
summarized.
Moreover,
current
challenges
opportunities
faced
devices
discussed.
This
work
highlights
critical
significance
throughput
accelerating
course
products.
Advanced Materials,
Год журнала:
2023,
Номер
36(17)
Опубликована: Окт. 12, 2023
Abstract
Photovoltaic
technology
presents
a
sustainable
solution
to
address
the
escalating
global
energy
consumption
and
reliable
strategy
for
achieving
net‐zero
carbon
emissions
by
2050.
Emerging
photovoltaic
technologies,
especially
printable
organic
perovskite
solar
cells,
have
attracted
extensive
attention
due
their
rapidly
transcending
power
conversion
efficiencies
facile
processability,
providing
great
potential
revolutionize
market.
To
accelerate
these
technologies
translate
from
laboratory
scale
industrial
level,
it
is
critical
develop
well‐defined
scalable
protocols
deposit
high‐quality
thin
films
of
photoactive
charge‐transporting
materials.
Herein,
current
state
cells
summarized
view
regarding
challenges
prospects
toward
commercialization
shared.
Different
printing
techniques
are
first
introduced
provide
correlation
between
material
properties
mechanisms,
optimization
ink
formulation
film‐formation
during
large‐area
deposition
different
functional
layers
in
devices
then
discussed.
Engineering
perspectives
also
discussed
analyze
criteria
module
design.
Finally,
provided
future
development
practical
commercialization.
It
believed
that
this
perspective
will
insight
into
other
electronic
devices.
Advanced Energy Materials,
Год журнала:
2024,
Номер
14(29)
Опубликована: Май 11, 2024
Abstract
The
demand
for
cost‐effective
and
rapid
processing
of
large‐area
thin
films
in
the
photovoltaic
industry
has
recently
driven
significant
research
interest.
In
this
context,
among
various
approaches
explored,
printing
devices,
particularly
perovskite
solar
cells
(PSCs),
have
garnered
considerable
attention
due
to
their
potential
scalability
cost
efficiency.
Besides,
solution
is
widely
recognized
as
an
appealing
strategy
large‐area,
cost‐effective,
high‐throughput
production
PSCs.
However,
while
substantial
progress
been
made
process,
challenges
related
stability,
uniformity,
remain
be
addressed.
This
review
critically
examines
key
techniques
substrates
employed
PSC
fabrication.
Then,
given
significance
ambient
air
industrial
applications,
fundamental
associated
with
achieving
PSCs
are
discussed
detail.
Moreover,
formulation
strategies
ink
technologies
thoroughly
considering
its
crucial
role
determining
performance
stability
printed
Finally,
process
components
PSCs,
including
absorber
layer,
charge
transport
layers
(CTLs),
electrodes,
meticulously
analyzed,
highlighting
current
achievements
remaining
hurdles.
ACS Applied Materials & Interfaces,
Год журнала:
2024,
Номер
16(14), С. 17607 - 17616
Опубликована: Апрель 1, 2024
Perovskite
solar
cells
(PSCs)
offer
impressive
performance
and
flexibility,
thanks
to
their
simple,
low-temperature
deposition
methods.
Their
band
gap
tunability
allows
for
a
wide
range
of
applications,
transitioning
from
opaque
transparent
devices.
This
study
introduces
the
first
flexible,
bifacial
PSCs
using
FAPbBr3
perovskite.
We
investigated
impact
optimizing
electron
hole
transport
layers
on
cells'
bifaciality,
transparency,
stability.
achieved
maximum
power
conversion
efficiency
(PCE)
6.8
18.7%
under
1
sun
indoor
light
conditions
(1200
lx),
respectively,
showing
up
98%
bifaciality
factor
an
average
visible
transmittance
(AVT)
55%.
Additionally,
P1–P2–P3
laser
ablation
scheme
has
been
developed
flexible
poly(ethylene
terephthalate)
(PET)
substrate
perovskite
modules
PCE
4.8%
high
geometrical
fill
(97.8%).
These
findings
highlight
potential
diverse
applications
such
as
building-integrated
photovoltaics
(BIPV),
agrivoltaics,
automotive
technology,
wearable
sensors,
Internet
things
(IoT).
ACS Applied Materials & Interfaces,
Год журнала:
2024,
Номер
16(21), С. 27410 - 27418
Опубликована: Май 13, 2024
The
development
of
a
stable
roll-to-roll
(R2R)
process
for
flexible
large-area
perovskite
solar
cells
(PSCs)
and
modules
is
pressing
challenge.
In
this
study,
we
introduced
new
R2R
PSC
manufacturing
system
that
employs
two-step
deposition
method
coating
uses
intensive
pulsed
light
(IPL)
annealing.
This
has
successfully
fabricated
small-sized
the
first-ever
large-sized,
R2R-processed
modules.
A
key
focus
our
work
was
to
accelerate
conversion
PbI2
perovskite.
To
end,
utilized
IPL
annealing
incorporated
additives
into
layer.
With
these
modifications,
films
achieved
power
efficiency
(PCE)
16.87%,
representing
highest
reported
value
processed
PSCs.
However,
exhibited
hysteresis
in
reverse
forward
PCE
measurements.
address
this,
dual-annealing
consisting
followed
by
2-min
thermal
heating
step.
approach
reduced
hysteresis,
resulting
low-hysteresis,
Moreover,
large-scale
(10
×
10
cm2)
with
11.25%
using
system,
marking
significant
milestone
field.
