Applied Physics Reviews,
Год журнала:
2020,
Номер
7(3)
Опубликована: Июль 28, 2020
Solar
cells
generate
renewable
energy
by
converting
sunlight
into
electricity
based
on
the
photovoltaic
effects.
Different
types
of
solar
have
been
developed
with
employment
versatile
organic,
inorganic,
and
hybrid
semiconductors
as
photoactive
layer
among
which
perovskite
evidenced
enormous
progress
in
recent
years.
The
maximum
achievable
power
conversion
efficiencies
organic
now
surpassed
25%
18%,
respectively.
Nevertheless,
relatively
narrow
light
absorption
region
large
open-circuit
voltage
loss
hinder
their
further
improvements.
Recently,
an
emerging
type
device,
integrated
perovskite/organic
cell,
incorporating
perovskites
near-infrared
semiconductors,
has
obtained
enhanced
short-circuit
current
density
while
reserving
high
devices.
Integrated
simplify
sophisticated
fabrication
processes
tandem
depositing
are
dissolved
orthogonal
solvents
directly
onto
layer,
offering
a
novel
route
to
utilize
more
photons.
In
this
review,
we
start
operational
mechanism
new
cell
then
introduce
various
devices
through
distinctions
layer.
We
proceed
summarize
critical
factors
that
determine
efficiency
provide
perspectives
directions
optimize,
including
device
structure
layers.
This
review
serves
ideal
guide
for
development
high-performance
ACS Applied Polymer Materials,
Год журнала:
2020,
Номер
3(1), С. 60 - 92
Опубликована: Окт. 9, 2020
Solar
energy
conversion
has
nowadays
attracted
research
interests
of
the
community,
wherein
conjugated
polymers
(CPs)
become
a
class
workhorses
on
photon-to-electron
and
photon-to-fuel
studies.
In
recent
years,
exciting
breakthroughs
have
been
made
in
these
multi-interdisciplinary
fields,
with
assistance
intrinsic
flexibilities
tuning
optoelectronic,
mechanical
structural
properties
CPs.
this
review,
we
summarize
notable
development
CPs
polymer
solar
cells,
perovskite
photocatalysts,
function
well
as
light-capture
components
for
cells
photocatalysts
charge
extraction
materials
cells.
By
analyzing
principles,
status,
structural-properties
areas,
outline
design
strategies
perspectives
further
advancing
conversions.
Journal of Materials Chemistry A,
Год журнала:
2021,
Номер
9(35), С. 19770 - 19777
Опубликована: Янв. 1, 2021
The
quantum
efficiency
of
the
organic
solar
cell
with
a
small
driving
force
can
be
increased
by
using
second
donor
chemical
structure
similar
to
primary
donor,
while
low
voltage
loss
is
very
well
maintained.
Advanced Functional Materials,
Год журнала:
2023,
Номер
33(37)
Опубликована: Май 21, 2023
Abstract
Additive‐assisted
donor
and
acceptor
domain
regulation
is
regarded
as
an
effective
strategy
to
further
release
the
potential
photovoltaic
performance
of
existing
organic
solar
cells
(OSCs).
Meanwhile,
it
also
critical
find
high‐efficient,
stable,
non‐toxic,
low‐cost
biological
materials
bio‐additives
replace
traditional
toxic
halogen‐based
additives.
In
this
study,
derived
from
a
natural
chlorophyll
pigment
named
ZnChl
H
2
Chl
are
employed
optimize
morphology
molecular
stack
PM6:Y6
active
layer.
The
eutectic
blends
more
ordered
tighter
after
introducing
bio‐additive
derivatives
system
compared
pristine
blends.
Owing
such
fine‐tuned
donor‐acceptor
microstructure
network,
bio‐additive‐based
OSC
achieves
17.30%
PCE
ZnChl‐based
device
obtains
efficiency
16.61%,
which
much
higher
than
that
control
with
15.97%
PCE.
result
proves
feasibility
environmental‐
eco‐friendly
improve
OSCs.
Journal of Materials Chemistry A,
Год журнала:
2019,
Номер
7(42), С. 24389 - 24399
Опубликована: Янв. 1, 2019
The
combination
of
indacenodithieno[3,2-b]selenophene
core
unit
and
thiophene-containing
IC
is
a
successful
synergistic
strategy
with
PCE
13.7%,
which
the
highest
value
in
NFAs
for
binary
OSCs.
Applied Physics Reviews,
Год журнала:
2020,
Номер
7(3)
Опубликована: Июль 28, 2020
Solar
cells
generate
renewable
energy
by
converting
sunlight
into
electricity
based
on
the
photovoltaic
effects.
Different
types
of
solar
have
been
developed
with
employment
versatile
organic,
inorganic,
and
hybrid
semiconductors
as
photoactive
layer
among
which
perovskite
evidenced
enormous
progress
in
recent
years.
The
maximum
achievable
power
conversion
efficiencies
organic
now
surpassed
25%
18%,
respectively.
Nevertheless,
relatively
narrow
light
absorption
region
large
open-circuit
voltage
loss
hinder
their
further
improvements.
Recently,
an
emerging
type
device,
integrated
perovskite/organic
cell,
incorporating
perovskites
near-infrared
semiconductors,
has
obtained
enhanced
short-circuit
current
density
while
reserving
high
devices.
Integrated
simplify
sophisticated
fabrication
processes
tandem
depositing
are
dissolved
orthogonal
solvents
directly
onto
layer,
offering
a
novel
route
to
utilize
more
photons.
In
this
review,
we
start
operational
mechanism
new
cell
then
introduce
various
devices
through
distinctions
layer.
We
proceed
summarize
critical
factors
that
determine
efficiency
provide
perspectives
directions
optimize,
including
device
structure
layers.
This
review
serves
ideal
guide
for
development
high-performance