Solar Energy and Sustainable Development,
Год журнала:
2025,
Номер
14(1), С. 316 - 333
Опубликована: Апрель 22, 2025
The
high
conversion
efficiency
of
solar
cells
can
make
them
more
competitive
in
cost
compared
to
conventional
energy
sources.
Therefore,
enhancing
photovoltaic
cell
remains
a
critical
challenge
for
researchers
and
manufacturers.
Shockley-Queisser
single
junction
are
limited
33.7%,
multi-junction
the
most
promising
technologies
that
have
achieved
remarkable
efficiencies
exceeding
46%.
Modeling
simulation
essential
optimize
semiconductor
devices
reduce
their
development
time
cost.
This
study
investigates
performance
improvement
novel
InGaP/InGaAs/Ge
triple-junction
by
integrating
III-V
semiconductors.
design
includes
Tungsten
disulfide
as
an
electron
transport
layer,
reduced
graphene
oxide
hole
intrinsic
InGaAs
layers
improve
decreasing
number
InGaP,
InGaAs,
Ge
manufacturing
costs.
SCAPS
1D
software
was
used
simulate
under
irradiance
1000
Wm-2
air
mass
AM1.5G
spectrum
at
25°C.
In
addition,
commercial
mini-solar
panel
were
also
simulated,
obtained
current-voltage
characteristics
with
experimental
data.
A
strong
correlation
observed
between
simulated
data
measurements,
confirming
proposed
design's
potential,
accuracy,
reliability.
new
structure
produced
impressive
power
49.83%.
findings
suggest
route
lower
Open Access Research Journal of Multidisciplinary Studies,
Год журнала:
2024,
Номер
7(2), С. 073 - 085
Опубликована: Май 5, 2024
Geoscientific
research
plays
a
crucial
role
in
shaping
renewable
energy
policies
and
promoting
ecological
balance.
This
review
explores
the
impact
of
geoscientific
on
its
balancing.
provides
valuable
insights
into
geological
environmental
factors
that
influence
feasibility
sustainability
projects.
By
studying
earth's
processes,
geoscientists
can
identify
suitable
locations
for
installations,
assess
potential
risks,
develop
strategies
to
mitigate
impacts.
One
key
ways
which
influences
is
through
contribution
resource
assessment.
Geoscientists
use
various
techniques,
such
as
mapping,
geophysical
surveys,
remote
sensing,
quantify
resources,
solar,
wind,
geothermal
energy.
information
essential
policymakers
effective
promote
development
utilization
sources.
Furthermore,
balancing
by
providing
impacts
interactions
between
installations
surrounding
environment,
risks
minimize
them.
ensure
sustainable
projects
while
protecting
environment.
In
conclusion,
resources
their
impacts,
help
Sustainability,
Год журнала:
2024,
Номер
16(18), С. 7962 - 7962
Опубликована: Сен. 12, 2024
Modules
based
on
c-Si
cells
account
for
more
than
90%
of
the
photovoltaic
capacity
installed
worldwide,
which
is
why
analysis
in
this
paper
focusses
cell
type.
This
study
provides
an
overview
current
state
silicon-based
technology,
direction
further
development
and
some
market
trends
to
help
interested
stakeholders
make
decisions
about
investing
PV
technologies,
it
can
be
excellent
incentive
young
scientists
field
find
a
narrower
research.
covers
all
process
steps,
from
production
metallurgical
silicon
raw
material
quartz
modules,
includes
technical,
economic
environmental
aspects.
The
aspect
calls
economical
production.
ecological
looks
ways
minimise
negative
impact
environment
by
reducing
emissions
using
environmentally
friendly
materials.
technical
refers
technologies
that
contribute
achieving
goals
economic,
sustainability-related
involves
reduce
energy
consumption
cutting
ingots
into
wafers
with
smallest
possible
width
(less
waste),
producing
thin
greatest
dimensional
accuracy,
cheaper
materials
efficient
An
extremely
important
goal
achieve
highest
efficiency
cells,
achieved
losses
(optical,
electrical,
degradation).
New
context
are
Tunnel
Oxide
Passivated
Contact
(TOPcon),
Interdigitated
Back
Cells
(IBCs),
Heterojunction
(HJTs),
Emitter
Rear
Totally
Diffused
(PERTs),
heterojunction
(SHJs),
Multi-Bush,
High-Density
Cell
Interconnection,
Shingled
Cells,
Split
Bifacial
others.
trend
also
increase
size
thus
output
power
module
but
weight
per
kW
power.
Research
focused
maximise
service
life
degradation
their
operating
properties
over
time.
influence
shade
temperature
should
preferably
minimised.
In
context,
half-cut
third-cut
covering
surface
layer
reduces
soiling
doping
gallium
instead
boron
newer
being
applied.
All
leads
greater
sustainability
solar
becomes
affordable
necessary
transition
“green”
economy.
ACS Photonics,
Год журнала:
2025,
Номер
12(2), С. 628 - 635
Опубликована: Фев. 6, 2025
Solar
hybrid
photovoltaic/thermal
(HPT)
systems
maximize
the
overall
solar
energy
conversion
by
simultaneously
converting
into
electrical
and
thermal
energy.
However,
practical
implementation
of
HPT
is
hindered
a
lack
suitable
optical
materials
capable
efficiently
splitting
incident
spectrum
desired
photovoltaic
(PV)
photothermal
(PT)
bands.
In
this
work,
we
provide
first
demonstration
multifunctional
asymmetric
metal-dielectric-metal
(asym-MDM)
coating
to
be
used
in
an
system.
The
asym-MDM
serves
as
dual
function
quad-band
splitter
receiver,
leveraging
on
multiorder
spectral
responses
lossy
nature
nickel.
Moreover,
silica
aerogel
employed
transparent
insulting
material
enhance
storage
capability,
while
heat
effectively
utilized
for
increasing
temperature
difference
thermoelectric
generator
(TEG).
As
result,
simple
highly
compact
system
developed,
with
simultaneous
extraordinary
mitigation
single-junction
amorphous
silicon
cell
generation
at
hot
side
TEG.
This
leads
63.9
370%
performance
improvements
PV
PT
subsystems
concentration
3,
respectively.
Asym-MDM
will
low-cost
yet
high-efficiency
solution
application
harnessing.
