Small Methods,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 29, 2025
Abstract
MXene‐based
nanocomposite
materials
with
other
2D
have
made
a
large
impact
in
the
field
of
energy
storage,
particularly
area
supercapacitors.
Combining
conductive
MXene
materials,
such
as
transition
metal
oxide,
dichalcogenides,
and
layered
double
hydroxide,
improves
electrochemical
storage
properties
resulting
nanocomposites.
The
interface
allows
an
improved
performance
for
applications.
In
this
review,
state‐of‐the‐art
research
progress
2D/2D
synthesis,
structural
morphological
properties,
supercapacitors
is
explored.
nanocomposites
terms
specific
capacitance,
energy,
power
densities,
stability
are
discussed.
This
study
shows
that
rapidly
developing
has
important
on
next‐generation
supercapacitor.
Small,
Journal Year:
2024,
Volume and Issue:
unknown
Published: June 7, 2024
Abstract
The
globe
is
currently
dealing
with
serious
issues
related
to
the
world
economy
and
population
expansion,
which
has
led
a
significant
increase
in
need
for
energy.
One
of
most
promising
energy
devices
next
generation
technology
supercapacitor
(SC).
Among
numerous
nanostructured
materials
examined
SC
electrodes,
inorganic
nanosheets
are
considered
be
favorable
electrode
because
their
excellent
electrochemical
performance
due
large
surface
area,
very
low
layer
thickness,
tunable
diverse
composition.
Various
(NS)
such
as
metal
oxides,
chalcogenides,
hydroxides,
MXenes
show
substantial
activity.
Herein,
comprehensive
survey
NS
arrays
synthesized
through
electrodeposition
method
reported
discussion
on
detailed
growth
mechanism
application
fabrication
electrodes/devices
powering
flexible
wearable
electronics
appliances.
To
begin
with,
first
section
will
feature
various
types
working
mechanism,
mechanisms,
importance
nanosheet
structure
SCs.
This
review
gives
profound
interpretation
performances
different
domains.
Finally,
perspective
array
applications
fields
extensively
examined.
EcoEnergy,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 4, 2025
ABSTRACT
Biomass‐derived
carbons
are
eco‐friendly
and
sustainable
materials,
making
them
ideal
for
supercapacitors
due
to
their
high
surface
area,
excellent
conductivity,
cost‐effectiveness,
environmental
benefits.
This
review
provides
valuable
insights
into
biomass‐derived
carbon
modified
supercapacitors,
integrating
both
experimental
results
theoretical
calculations.
begins
by
discussing
the
origins
of
in
including
plant‐based,
food
waste‐derived,
animal‐origin,
microorganism‐generated
sources.
Then,
this
presents
strategies
improve
performance
heteroatom
doping,
functionalization,
hybrid
composite
construction.
Furthermore,
analyzes
functions
its
pure
form
as
materials.
The
also
explores
composites
derived
from
biomass‐based
carbon,
carbon/MXenes,
carbon/MOFs,
carbon/graphene,
carbon/conductive
polymers,
carbon/transition
metal
oxides,
carbon/hydroxides,
providing
a
thorough
investigation.
Most
importantly,
offers
an
innovative
summary
analysis
role
through
calculations,
concentrating
on
four
key
aspects:
energy
band
structure,
density
states,
electron
cloud
density,
adsorption
energy.
Finally,
concludes
future
research
directions
biomass
carbon‐based
discovery
novel
tailoring
functional
groups,
fabricating
high‐performance
exploring
ion
transfer
mechanisms,
enhancing
practical
applications.
In
summary,
exploration
sources,
functions,
mechanisms
research.
