Manipulating Intermediate Surface Energy for High‐Performance All‐Inorganic Perovskite Photovoltaics
Advanced Energy Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 5, 2025
Abstract
The
complete
phase
transition
from
DMAPbI
3
and
Cs
4
PbI
6
intermediates
to
the
final
CsPbI
perovskite
is
pivotal
for
fabricating
high‐quality
inorganic
films.
In
this
study,
reaction
energy
barrier
between
sought
be
reduced
by
increasing
their
surface
energy,
where
a
perfluorinated
compound
designed
using
DFT
modeling
saturate
of
effectively
prevent
crystalline
growth.
Consequently,
smaller
with
ultrahigh
react
more
energetically
facilitate
rapid
conversion
desired
phase.
It
found
that
resultant
shows
improved
crystallinity
morphology,
as
demonstrated
suppressed
non‐radiative
recombination
prolonged
carrier
lifetimes.
As
result,
optimized
solar
cells
(PSCs)
achieve
power
efficiency
(PCE)
over
20%,
along
significantly
light
thermal
stability.
This
work
provides
way
regulate
crystallization
dynamics
advanced
quality
perovskites.
Язык: Английский
Three Birds with One Stone: Construction of Highly Efficient Interfaces via Ammonium Sulfamate Doping SnO2
Solar RRL,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 15, 2025
Interface
engineering
plays
a
crucial
part
in
optimizing
the
device
performance
perovskite
solar
cells
(PSCs).
Herein,
ammonium
sulfamate
(ASA)
is
introduced
as
multifunctional
additive
into
SnO
2
electron
transport
layer
(ETL)
with
“three
birds
one
stone”
strategy.
At
first,
oxygen
vacancy
and
hydroxyl
ligand
on
surface
of
nanoparticles
causing
charge
recombination
efficiently
reduced
by
incorporating
ASA
colloidal
dispersion.
Second,
coordination
bond
SO
3
−
anion
interaction
between
NH
Pb
2+
construct
chemical
bridging
at
interface
ETL/perovskite.
It
significantly
enhances
interfacial
transport.
Third,
introduction
conducive
to
form
high‐quality
films
larger
crystallite
size
improved
crystallinity
due
optimization
buried
interface.
Consequently,
integrated
effects
both
interfaces
bulk,
ASA‐based
delivers
an
increased
efficiency
from
20.73%
24.41%.
Moreover,
optimized
displays
remarkable
retention
over
90%
its
original
power
conversion
after
1000
h
under
controlled
N
atmosphere,
demonstrating
stability
enhanced.
Язык: Английский
Graphdiyne: The Emerging Energy Conversion Material
Advanced Functional Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 23, 2025
Abstract
Global
research
efforts
aimed
at
substituting
fossil
fuels
with
clean
energy
sources
have
been
intensified
to
tackle
the
crisis
and
associated
environmental
challenges.
Nevertheless,
a
thorough
transition
necessitates
discovery
of
new
materials
that
continuously
revolutionize
efficiency
conversion.
Graphdiyne
(GDY),
promising
carbon
allotrope,
has
garnered
substantial
interest
across
various
disciplines.
Notably,
as
an
emerging
conversion
material,
GDY
exhibits
unique
structure
properties
distinguish
it
from
conventional
materials,
including
highly
conjugated
large
π
network,
rich
chemical
bonds,
non‐uniform
charge
distribution,
well
2D
electronic
fast
transfer
channels
3D
ionic
channels.
This
review
offers
overview
recent
advancements
in
field
conversion,
hydrogen
artificial
photosynthesis,
solar
cells,
fast‐charging
batteries,
devices
based
on
reversible
alkyne‐to‐alkene
GDY.
Язык: Английский
Assessing the effect of excess PbI2 on the photovoltaic performance of CsPbI3 all-inorganic perovskite solar cells
Materials Today Communications,
Год журнала:
2025,
Номер
unknown, С. 112548 - 112548
Опубликована: Апрель 1, 2025
Язык: Английский
Synergistic effect of DMAI degradation inhibition and perfluorinated passivation for high performance inorganic perovskite photovoltaics
Chemical Engineering Journal,
Год журнала:
2025,
Номер
unknown, С. 163282 - 163282
Опубликована: Май 1, 2025
Язык: Английский
Multidimensional Modulation via Tailored Covalent Organic Frameworks Enables Stable Inverted Perovskite Solar Cells with 26.21% Efficiency
Tianzhou Yin,
Zimin Zhang,
Hualin Wu
и другие.
Advanced Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 15, 2025
Abstract
Despite
the
remarkable
advancements
in
inverted
perovskite
solar
cells,
their
commercialization
remains
hindered
by
critical
bottlenecks
efficiency
and
stability
stemming
from
inadequate
crystallization
unfavorable
interfacial
states.
Herein,
for
first
time,
a
judiciously
designed
hydrazine‐linked
covalent
organic
framework
(COF)
with
long
alkane
phosphate
branch
chains,
named
12‐SD‐COF,
is
synthesized
integrated
into
precursor
to
achieve
multidimensional
regulation
of
crystallization,
defect
states,
charge
separation
synergistically.
It
found
that
12‐SD‐COF
featuring
periodic
pores,
large
planar
structure,
abundant
binding
groups
extruded
solution
onto
buried
interface,
surface,
grain
boundaries,
facilitating
oriented
while
eliminating
defects
perovskites,
thereby
yielding
high‐quality
crystals
suppressed
non‐radiative
recombination.
Simultaneously,
synergistically
facilitated
p‐type
doping‐optimized
energy
level
alignment
induced
intramolecular
electric
field,
ultimately
achieving
an
exceptional
power
conversion
(PCE)
26.21%,
highest
yet
reported
COF‐modified.
Impressively,
non‐encapsulated
resultant
device
delivers
greatly
improved
stabilities,
maintaining
over
92%
initial
PCE
after
being
aged
under
85
°C
continuous
heating
stress
800
h,
1000
h
50±3%
relative
humidity
air,
1200
1‐sun
illumination,
respectively.
Язык: Английский