Nanophotonics,
Год журнала:
2020,
Номер
10(8), С. 2103 - 2143
Опубликована: Июнь 1, 2020
Abstract
Perovskite
semiconductors
have
experienced
meteoric
rise
in
a
variety
of
optoelectronic
applications.
With
strong
foothold
on
photovoltaics,
much
focus
now
lies
their
light
emission
Rapid
progress
materials
engineering
led
to
the
demonstration
external
quantum
efficiencies
that
surpass
previously
established
theoretical
limits.
However,
there
remains
scope
further
optimize
propagation
inside
device
stack
through
careful
tailoring
optical
processes
take
place
at
bulk
and
interface
levels.
Photon
recycling
emitter
material
followed
by
efficient
outcoupling
can
result
boosting
up
100%.
In
addition,
poor
ambient
operational
stability
these
devices
restrict
commercialization
efforts.
best
lifetimes
only
few
hours
reported,
is
long
way
go
before
perovskite
LEDs
be
perceived
as
reliable
alternatives
more
technologies
like
organic
or
dot-based
LED
devices.
This
review
article
starts
with
discussions
mechanism
luminescence
factors
impacting
it.
It
then
looks
possible
routes
achieve
nanostructuring
substrate.
Next,
we
analyse
instability
issues
perovskite-based
from
photophysical
standpoint,
taking
into
consideration
underlying
phenomena
pertaining
defects,
summarize
recent
advances
mitigating
same.
Finally,
provide
an
outlook
forward
for
field
propose
new
avenues
maximally
exploit
excellent
light-emitting
capabilities
this
family
semiconductors.
Science,
Год журнала:
2020,
Номер
370(6522), С. 1300 - 1309
Опубликована: Дек. 10, 2020
Tandem
solar
cells
that
pair
silicon
with
a
metal
halide
perovskite
are
promising
option
for
surpassing
the
single-cell
efficiency
limit.
We
report
monolithic
perovskite/silicon
tandem
certified
power
conversion
of
29.15%.
The
absorber,
bandgap
1.68
electron
volts,
remained
phase-stable
under
illumination
through
combination
fast
hole
extraction
and
minimized
nonradiative
recombination
at
hole-selective
interface.
These
features
were
made
possible
by
self-assembled,
methyl-substituted
carbazole
monolayer
as
layer
in
cell.
accelerated
was
linked
to
low
ideality
factor
1.26
single-junction
fill
factors
up
84%,
while
enabling
open-circuit
voltage
high
1.92
volts.
In
air,
without
encapsulation,
retained
95%
its
initial
after
300
hours
operation.
Energy & Environmental Science,
Год журнала:
2021,
Номер
14(11), С. 5875 - 5893
Опубликована: Янв. 1, 2021
We
present
a
dual
passivation
approach
for
p–i–n
perovskite
solar
cells
using
phenethylammonium
chloride
that
simultaneously
passivates
defects
at
the
grain
boundaries
and
perovskite/C
60
interface,
thus
substantially
enhancing
both
V
OC
FF.
Advanced Energy Materials,
Год журнала:
2020,
Номер
10(48)
Опубликована: Ноя. 10, 2020
Abstract
The
last
decade
has
seen
remarkable
advancements
in
the
field
of
perovskite
materials
and
photovoltaic
technologies.
One
their
most
extraordinary
characteristics
is
high
quality
layers
that
can
be
obtained
by
“dirty
processing”
from
solution
at
low
temperatures.
Alternatively,
perovskites
also
deposited
thermal
evaporation,
a
clean,
solvent‐free
process,
which
well
established
for
many
industrial
applications.
Although
vast
majority
research
reports
focus
on
solution‐processing
as
deposition
method
solar
cells,
thermally
evaporated
cells
are
closing
performance
gap
with
several
efficiencies
above
20%.
In
this
Progress
Report,
two
methods
briefly
introduced,
key
developments
devices
based
each
technique
outlined,
challenges
future
possibilities
discussed.
Abstract
It
is
certain
that
perovskite
materials
must
be
a
game‐changer
in
the
solar
industry
as
long
their
stability
reaches
level
comparable
with
lifetime
of
commercialized
Si
photovoltaic.
However,
operational
cells
and
modules
still
remains
unresolved,
especially
when
devices
operate
practical
energy‐harvesting
modes
represented
by
maximum
power
point
tracking
under
1
sun
illumination
at
ambient
conditions.
This
review
article
covers
from
fundamental
aspects
instability
including
chemical
decomposition
pathways
light
soaking
electrical
bias,
to
recent
advances
techniques
effectively
prevent
such
degradation
modules.
In
particular,
causes
for
permanent
due
ion
migration
trapped
charges
are
overviewed
explain
interplay
between
ions
charges.
Based
on
mechanism,
strategies
discussed
slow
down
during
operation
use
perovskite‐based
devices.
Advanced Energy Materials,
Год журнала:
2024,
Номер
14(35)
Опубликована: Июнь 27, 2024
Abstract
Inverted
perovskite
solar
cells
(PSCs)
have
attracted
considerable
attention
due
to
their
distinct
advantages,
including
minimal
hysteresis,
cost‐effectiveness,
and
suitability
for
tandem
applications.
Nevertheless,
the
solution
processing
low
formation
energy
of
perovskites
inevitably
lead
numerous
defects
formed
at
both
bulk
interfaces
layer.
These
can
act
as
non‐radiative
recombination
centers,
significantly
impeding
carrier
transport
posing
a
substantial
obstacle
stability
further
enhancing
power
conversion
efficiency
(PCE).
This
review
delves
into
detailed
discussion
nature
origin
characterization
techniques
employed
defect
identification.
Furthermore,
it
systematically
summarizes
methods
detection
approaches
passivating
interface
within
film
in
inverted
PSCs.
Finally,
this
offers
perspective
on
employing
upscaling
passivation
engineering
modules.
It
is
hoped
provides
insights
PSCs
Energy & environment materials,
Год журнала:
2024,
Номер
7(4)
Опубликована: Янв. 31, 2024
Grain
boundaries
(GBs)
in
perovskite
polycrystalline
films
are
the
most
sensitive
place
for
formation
of
defect
states
and
accumulation
impurities.
Thus,
abundant
works
have
been
carried
out
to
explore
their
properties
then
try
solve
induced
problems.
Currently,
two
important
issues
remain.
First,
role
GBs
charge
carrier
dynamics
is
unclear
due
component
complexity/defect
tolerance
nature
insufficiency
testing
accuracy.
Some
conclude
that
benign,
while
others
consider
as
recombination
centers.
Things
sure
deterioration
ion
transport
decomposition.
Second,
known
hazards
GBs,
a
lot
additives
added
anchoring
ions
passivate
defects.
But
those
works,
surfaces
treated
same
manner
ignoring
fact
GB
essentially
homogeneous
junction
narrow
slender
space,
surface
heterogeneous
with
stratified
structure.
In
this
review,
we
focus
on
insight
into
them.
Additionally,
also
discuss
prospects
maturity
exploration
toward
upscaling
manufacture
photovoltaic
related
optoelectronic
devices.
eScience,
Год журнала:
2024,
Номер
4(2), С. 100243 - 100243
Опубликована: Янв. 25, 2024
Perovskite
solar
cells
(PSCs)
have
shown
remarkable
advancements
and
achieved
impressive
power
conversion
efficiencies
since
their
initial
introduction
in
2012.
However,
challenges
regarding
stability,
quality,
sustainability
must
be
addressed
for
successful
commercial
use.
This
review
analyses
the
recent
studies
related
to
operating
life
end-of-life
utilization
of
PSCs.
Strategies
enhance
stability
mitigate
toxic
Pb
leakage
operational
recycling
approaches
discarded
PSCs
post
are
examined
establish
a
viable
sustainable
PSC
industry.
Additionally,
future
research
directions
proposed
The
goal
is
ensure
high
efficiency
as
well
economic
environmental
throughout
lifecycle
Journal of Applied Physics,
Год журнала:
2020,
Номер
128(6)
Опубликована: Авг. 11, 2020
It
is
the
defects
that
determine
physicochemical
properties
and
photoelectrical
of
corresponding
semiconductors.
Controlling
essential
to
realize
high-efficiency
stable
solar
cells,
particularly
in
those
based
on
hybrid
halide
perovskite
materials.
Here,
we
review
defect
chemistry
absorbers,
most
which
take
effects
at
grain
boundaries
surfaces.
These
impact
kinetics
and/or
thermodynamics
during
courses
charge
recombination,
ion
migration,
degradation
devices,
inevitably
influences
their
efficiency
stability.
The
effective
suppression
harmful
photovoltaics
not
only
reduces
non-radiative
recombination
centers
improve
efficiency,
but
also
retards
under
aging
stresses
dramatically
long-term
operational
Finally,
future
challenges
with
regard
in-depth
understanding
formation,
passivation
are
presented,
shed
light
realizing
optoelectronics.
