Materials,
Год журнала:
2024,
Номер
17(9), С. 2124 - 2124
Опубликована: Апрель 30, 2024
Due
to
their
exceptional
properties
and
diverse
applications,
including
magnetic
devices,
thermoelectric
materials,
catalysis,
biomedicine,
energy
storage,
nanoscale
metallic
multilayer
composites
(NMMCs)
have
recently
attracted
great
attention.
The
alternating
layers
of
two
or
more
metals
that
make
up
NMMCs
are
each
just
a
few
nanometers
thick.
difficulties
in
producing
synthesizing
new
materials
can
be
overcome
by
using
architectures.
By
adjusting
the
layer
thickness,
composition,
interface
structure,
mechanical
these
controlled.
In
addition,
exhibit
unusually
high
strength
at
thin
thicknesses
because
multilayers
exceptionally
strength,
as
individual
reduced
nanoscale.
depend
on
layers.
This
means
tuned
varying
structure.
Therefore,
this
review
article
aims
provide
comprehensive
overview
application
high-performance
NMMCs.
paper
briefly
discusses
fabrication
methods
used
produce
highlights
potential
various
fields,
such
electronics,
aerospace,
biomedical
engineering.
Furthermore,
electrical
conductivity,
properties,
thermal
stability
above
composite
analyzed
detail.
concludes
with
discussion
future
prospects
challenges
associated
development
Polymers,
Год журнала:
2023,
Номер
15(10), С. 2272 - 2272
Опубликована: Май 12, 2023
Energy
storage
is
one
of
the
challenges
currently
confronting
energy
sector.
However,
invention
supercapacitors
has
transformed
This
modern
technology’s
high
capacity,
reliable
supply
with
minimal
lag
time,
and
extended
lifetime
have
piqued
interest
scientists,
several
investigations
been
conducted
to
improve
their
development.
there
room
for
improvement.
Consequently,
this
review
presents
an
up-to-date
investigation
different
supercapacitor
technologies’
components,
operating
techniques,
potential
applications,
technical
difficulties,
benefits,
drawbacks.
In
addition,
it
thoroughly
highlights
active
materials
used
produce
supercapacitors.
The
significance
incorporating
every
component
(electrode
electrolyte),
synthesis
approach,
electrochemical
characteristics
are
outlined.
research
further
examines
supercapacitors’
in
next
era
technology.
Finally,
concerns
new
prospects
hybrid
supercapacitor-based
applications
that
envisaged
result
development
ground-breaking
devices,
highlighted.
Crystals,
Год журнала:
2023,
Номер
13(7), С. 1118 - 1118
Опубликована: Июль 18, 2023
Recent
energy
research
focuses
on
the
efficiency
enhancement
of
supercapacitor
devices
for
multipurpose
applications.
Several
materials
have
been
used
as
electrode
to
achieve
maximum
specific
capacitance.
The
present
review
article
concludes
with
three
different
types
recently
enhance
supercapacitors.
first
type
involves
carbon-based
storage
and
carbon
could
be
obtained
naturally
synthesized
manually
based
need.
additional
advantage
material
is
these
can
from
natural
sources.
second
discusses
recent
advances
in
metal
oxide
high-performance
are
involved
attachment
through
bi-tri
metallic
bonding,
which
enhances
third
advanced
high
power
density
application.
enhanced
by
surface
modification
materials.
In
days,
MXene
nanocomposite
seem
an
appropriate
increase
device.
treatment
respective
capacitance
material.
Chemical Engineering Journal,
Год журнала:
2024,
Номер
482, С. 148774 - 148774
Опубликована: Янв. 17, 2024
MXene
is
a
newly
discovered
2D
carbon-based
material
that
predominantly
conductive.
The
most
common
MXene,
titanium
carbide
(Ti3C2),
can
be
used
as
conductive
to
enhance
the
photocurrent
generated
by
photoelectrochemical
(PEC)
sensors.
In
order
produce
sheets
are
of
high
quality
for
PEC
sensors
and
other
light-based
applications,
it
imperative
synthesis
methods
production
continue
improved
an
extensive
understanding
its
properties
gained.
Several
fluorinated
non-fluorinated
from
MAX
discussed
in
this
review.
Detailed
description
mechanical,
optical,
topological,
electronic,
electrochemical
resultant
MXenes
also
presented.
A
critical
analysis
density
functional
theory
(DFT)
data
pure
well
changes
optical
bandgap
when
doped
with
heteroatoms
form
heterojunctions
or
ternary
nanocomposites,
extensively
described.
Additionally,
systematic
exposition
done
on
current
MXene-based
sensors,
highlighting
parameters
yield
performing
sensor.
review
concludes
opinion
future
direction
sensing
field.
