Energy Technology,
Journal Year:
2024,
Volume and Issue:
13(1)
Published: Oct. 22, 2024
Recent
advances
in
solar
cell
technology
have
been
motivated
by
new
materials
and
inventive
engineering
techniques.
Dye‐sensitized
cells
(DSSCs)
are
becoming
more
widely
recognized
as
a
possible
alternative
for
sustainable
energy.
Optimizing
electrolytes
is
one
of
the
most
important
variables
impacting
their
effectiveness
durability.
The
electrolyte
interface
critical
to
optimize
charge
separation,
ion
transport,
diffusion
ensuring
device
stability
efficiency.
present
investigation
focuses
on
enhancing
investigating
innovative
compositions
improve
DSSC
performance
sustainability
energy
applications.
Despite
progress,
obstacles
remain
presenting
core
principles
research
approaches
technology.
Continued
required
overcome
these
limitations
fully
realize
potential
DSSCs
solutions.
Materials,
Journal Year:
2024,
Volume and Issue:
17(21), P. 5213 - 5213
Published: Oct. 25, 2024
Unlike
current
silicon-based
photovoltaic
technology,
the
development
of
last-generation
thin-film
solar
cells
has
been
marked
by
groundbreaking
advancements
in
new
materials
and
novel
structures
to
increase
performance
lower
costs.
However,
physically
building
each
proposal
evaluate
device’s
efficiency
can
involve
unnecessary
effort
time.
Numerical
simulation
tools
provide
a
solution
allowing
researchers
predict
optimize
cell
without
physical
testing.
This
paper
reviews
thirteen
main
numerical
for
cells,
including
SCAPS,
AMPS,
AFORS-HET,
ASPIN3,
GPVDM,
SESAME,
SILVACO,
SENTAURUS,
ADEPT.
review
evaluates
tool’s
features,
modeling
methods,
approaches,
application
contexts.
The
findings
reveal
notable
differences
material
modeling,
accuracy,
cost,
accessibility
among
tools.
Each
strengths
limitations
simulating
are
highlighted.
study
emphasizes
necessity
selecting
suitable
based
on
specific
research
requirements.
It
provides
comparative
analysis
assist
choosing
most
effective
software
optimizing
contributing
technology.
Research Square (Research Square),
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 20, 2024
Abstract
The
DFT
calculated
Ultra-Violet/Visible
properties
of
11
different
Cu(β-diketonato)2
complexes
are
presented.
selected
β-diketonato
ligands
on
the
Cu
complex
contains
none,
one
or
two
aromatic
rings.
Experimentally
measured
absorbance
maxima
range
is
observed
at
295–390
nm
and
302–425
nm,
for
in
this
study.
More
rings
ligand
lead
to
Bathochromic
shifts
experimentally
from
Ultra-Violet
towards
Visible
region.
Absorbance
with
no
found
be
predominantly
ligand-to-metal
charge
transfer
excitations.
Whereas
introducing
excitations
ligand-to-ligand
transfer.
Energy Technology,
Journal Year:
2024,
Volume and Issue:
13(1)
Published: Oct. 22, 2024
Recent
advances
in
solar
cell
technology
have
been
motivated
by
new
materials
and
inventive
engineering
techniques.
Dye‐sensitized
cells
(DSSCs)
are
becoming
more
widely
recognized
as
a
possible
alternative
for
sustainable
energy.
Optimizing
electrolytes
is
one
of
the
most
important
variables
impacting
their
effectiveness
durability.
The
electrolyte
interface
critical
to
optimize
charge
separation,
ion
transport,
diffusion
ensuring
device
stability
efficiency.
present
investigation
focuses
on
enhancing
investigating
innovative
compositions
improve
DSSC
performance
sustainability
energy
applications.
Despite
progress,
obstacles
remain
presenting
core
principles
research
approaches
technology.
Continued
required
overcome
these
limitations
fully
realize
potential
DSSCs
solutions.
