ACS Applied Materials & Interfaces,
Journal Year:
2022,
Volume and Issue:
14(26), P. 29896 - 29904
Published: June 27, 2022
Organic
solar
cells
(OSCs)
and
perovskite
(PVSCs)
are
promising
candidates
for
next-generation
thin
film
photovoltaic
technologies.
The
integration
of
OSCs
with
PVSCs
in
tandem
devices
is
now
attracting
significant
attention
due
to
their
similar
fabrication
procedures
the
potential
afford
a
higher
device
performance.
Here,
thickness-insensitive
solvent-resistant
interconnecting
layer
developed
efficiently
connect
organic
subcells
low
contact
resistance.
resultant
perovskite-organic
maintain
high
efficiencies
over
wide
thickness
range
layer,
from
∼20
nm
∼50
nm,
providing
an
easily
fabricated,
platform
integrate
active
layers
low-temperature
solution
processing
techniques.
containing
ultrathin
PVSC
typical
non-fullerene
OSC
give
maximum
efficiency
19.2%,
which
much
than
those
single-junction
devices.
Moreover,
highly
reproducible
1
cm2
achieved
using
17.8%
realized.
These
used
successfully
solar-to-hydrogen
systems
solar-to-fuel
conversion
11.2%.
Overall,
these
advances
represent
progress
design
facile
processed
cells.
Chemical Society Reviews,
Journal Year:
2021,
Volume and Issue:
50(12), P. 7250 - 7329
Published: Jan. 1, 2021
We
systematically
and
hierarchically
reviewed
all
of
the
photon
management
strategies
to
overcome
energy
loss
in
perovskite
solar
cells
hope
guide
researchers
achieve
efficient
light-harvesting
semiconductor
optoelectronic
devices.
Chemical Reviews,
Journal Year:
2024,
Volume and Issue:
124(19), P. 10623 - 10700
Published: Aug. 29, 2024
Recently,
there
has
been
an
extensive
focus
on
inverted
perovskite
solar
cells
(PSCs)
with
a
p-i-n
architecture
due
to
their
attractive
advantages,
such
as
exceptional
stability,
high
efficiency,
low
cost,
low-temperature
processing,
and
compatibility
tandem
architectures,
leading
surge
in
development.
Single-junction
perovskite-silicon
(TSCs)
have
achieved
certified
PCEs
of
26.15%
33.9%
respectively,
showing
great
promise
for
commercial
applications.
To
expedite
real-world
applications,
it
is
crucial
investigate
the
key
challenges
further
performance
enhancement.
We
first
introduce
representative
methods,
composition
engineering,
additive
solvent
processing
innovation
charge
transporting
layers,
interface
fabricating
high-efficiency
stable
PSCs.
then
delve
into
reasons
behind
excellent
stability
Subsequently,
we
review
recent
advances
TSCs
PSCs,
including
perovskite-Si
TSCs,
all-perovskite
perovskite-organic
TSCs.
achieve
final
deployment,
present
efforts
related
scaling
up,
harvesting
indoor
light,
economic
assessment,
reducing
environmental
impacts.
Lastly,
discuss
potential
PSCs
future.
Journal of Materials Chemistry A,
Journal Year:
2021,
Volume and Issue:
9(35), P. 19778 - 19787
Published: Jan. 1, 2021
This
work
presents
high-performance
and
stable
all-inorganic
perovskite/organic
tandem
solar
cells
with
a
champion
efficiency
of
18.06%
excellent
stability
under
light
thermal
conditions.
IEEE Access,
Journal Year:
2021,
Volume and Issue:
9, P. 54254 - 54263
Published: Jan. 1, 2021
Lead
halide
perovskite
solar
cell
shows
an
enormous
potential
for
the
next
generation
renewable
energy,
but
it
also
offers
some
environmental
hazards
due
to
their
inherent
lead-based
toxicity.
On
other
hand,
if
lead
based
is
efficiently
replaced
by
non-toxic
metal
then
toxicity
can
remarkably
be
reduced
photovoltaic
applications.
In
this
study,
a
novel
free
compound
Cs
2
TiBr
xmlns:xlink="http://www.w3.org/1999/xlink">6
device
proposed
as
Au/PEDOT:PSS/
/TiO
/AZO,
where
each
layer
optimized
and
analysed
through
series
of
simulations
maximum
power-conversion
efficiency
using
SCAPS-1D
software.
Comprehensive
optimization
thickness
doping
density
leads
up
17.83%
our
cell.
Therefore,
we
believe
that
these
results
will
provide
route
heading
towards
progress
lead-free
highly
efficient
devices.
Nano Letters,
Journal Year:
2021,
Volume and Issue:
21(18), P. 7845 - 7854
Published: Sept. 10, 2021
The
photovoltaic
performance
of
inorganic
perovskite
solar
cells
(PSCs)
still
lags
behind
the
organic–inorganic
hybrid
PSCs
due
to
limited
light
absorption
wide
bandgap
CsPbI3-xBrx
under
illumination.
Constructing
tandem
devices
with
organic
can
effectively
extend
toward
long-wavelength
region
and
reduce
radiative
photovoltage
loss.
Herein,
we
utilize
wide-bandgap
CsPbI2Br
semiconductor
narrow-bandgap
PM6:Y6-BO
blend
fabricate
perovskite/organic
an
efficiency
21.1%
a
very
small
open-circuit
voltage
loss
0.06
V.
We
demonstrate
that
hole
transport
material
interconnecting
layers
plays
critical
role
in
determining
efficiency,
polyTPD
being
superior
PBDB-T-Si
D18
its
low
parasitic
absorption,
sufficient
mobility
quasi-Ohmic
contact
suppress
charge
accumulation
within
device.
These
also
display
storage,
thermal
ultraviolet
stabilities.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(26)
Published: April 13, 2024
Perovskite/organic
tandem
solar
cells
(PO-TSCs)
demonstrate
exceptional
suitability
for
emerging
applications
such
as
building-integrated
photovoltaics,
wearable
devices,
and
greenhouse
farming.
By
leveraging
the
distinctive
attributes
of
perovskite
organic
materials,
which
encompass
expanded
spectrum
utilization,
chemically
benign
solubility,
soft
nature,
PO-TSCs
position
themselves
ideal
candidates
high-performance
semi-transparent
photovoltaics
(ST-PVs).
Despite
these
advantages,
their
development
significantly
lags
behind
other
perovskite-based
counterparts,
perovskite/perovskite,
perovskite/silicon,
perovskite/Cu(In,
Ga)Se
Molecules,
Journal Year:
2024,
Volume and Issue:
29(14), P. 3373 - 3373
Published: July 18, 2024
Due
to
a
wide
band
gap
and
large
exciton
binding
energy,
zinc
oxide
(ZnO)
is
currently
receiving
much
attention
in
various
areas,
can
be
prepared
forms
including
nanorods,
nanowires,
nanoflowers,
so
on.
The
reliability
of
ZnO
produced
by
single
dopant
unstable,
which
turn
promotes
the
development
co-doping
techniques.
Co-doping
very
promising
technique
effectively
modulate
optical,
electrical,
magnetic,
photocatalytic
properties
ZnO,
as
well
ability
form
structures.
In
this
paper,
important
advances
co-doped
nanomaterials
are
summarized,
preparation
using
different
methods,
hydrothermal,
solvothermal,
sol-gel,
acoustic
chemistry.
addition,
range
applications
photocatalysis,
solar
cells,
gas
sensors,
biomedicine
discussed.
Finally,
challenges
future
prospects
field
also
elucidated.