Advanced Composites and Hybrid Materials,
Journal Year:
2024,
Volume and Issue:
7(6)
Published: Oct. 30, 2024
Abstract
Metal–organic
frameworks
(MOFs)
have
emerged
as
a
versatile
class
of
porous
materials
with
tremendous
potential
for
various
applications,
including
energy
storage
devices.
This
review
provides
comprehensive
analysis
recent
advancements
and
applications
MOFs
in
the
field
brief
overview
fundamental
aspects
MOFs,
their
synthesis,
structural
diversity,
tuneable
properties.
been
extensively
investigated
advanced
systems
supercapacitors.
can
be
employed
electrode
materials,
separators,
catalysts,
offering
enhanced
electrochemical
performance,
improved
charge/discharge
rates,
prolonged
cycling
stability.
The
unique
tunability
allows
rational
design
tailored
desired
properties,
such
high
specific
capacity,
excellent
conductivity,
superior
developments
MOF-based
capacitors,
particularly
significant
progress
reported
achieving
power
densities,
are
noteworthy.
exceptional
charge
capacity
combined
facile
synthesis
scalability,
makes
them
promising
candidates
next-generation
technologies.
sheds
light
on
challenges
opportunities
practical
implementation
devices
discusses
strategies
enhancing
stability
different
environments,
improving
electrical
developing
scalable
methods.
We
briefly
discuss
perspectives
future
directions,
particular
focus
research
development
use
applications.
ACS Omega,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 16, 2024
This
study
provides
a
comprehensive
analysis
of
biofabricated
nanomaterial
derived
from
Sansevieria
trifasciata
root
extract,
evaluating
its
structural,
morphological,
and
optical
properties
for
use
in
asymmetric
supercapacitors.
The
comprises
pristine
ZnO
nanoparticles
(ZnO
NPs)
1%
Ag-doped
nanocomposite
(Ag@ZnO
NC),
synthesized
through
green-assisted
sol–gel
autocombustion
method.
Employing
techniques
such
as
X-ray
diffraction,
ultraviolet–visible
near-infrared,
scanning
electron
microscopy–energy-dispersive
X-rayspectroscopy,
Fourier
transform
infrared
spectroscopy,
Raman
transmission
microscopy,
the
confirms
hexagonal
wurtzite
structure
nanocrystallites
with
spherical
shapes
(30
nm).
Optical
reveals
red
shift
band
gap
Ag
doping,
indicating
improved
conductivity.
material
shows
potential
applications
solar
cells,
optoelectronics,
spintronics,
wastewater
treatment,
high-performance
spectra
validate
phase
identify
intrinsic
defects.
Electrochemical
tests
demonstrate
remarkable
supercapacitive
behavior
94%
capacitance
retention
after
10,000
cycles,
highlighting
promise
advanced
RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(46), P. 33941 - 33951
Published: Jan. 1, 2024
Metal-organic
frameworks
(MOFs)
have
garnered
substantial
attention
as
promising
candidates
for
electrode
materials
due
to
their
intriguing
electrochemical
properties.
However,
the
quest
enhanced
energy
density
and
electrical
conductivity
persists.
Manipulating
surface
morphology
emerges
a
pivotal
strategy
modulate
these
attributes
unlock
full
potential
of
MOFs
in
applications.
This
research
delves
into
pioneering
exploration
copper
metal-organic
framework
synthesis
employing
pyridine-4-carboxylic
acid
Advanced Composites and Hybrid Materials,
Journal Year:
2024,
Volume and Issue:
7(6)
Published: Oct. 30, 2024
Abstract
Metal–organic
frameworks
(MOFs)
have
emerged
as
a
versatile
class
of
porous
materials
with
tremendous
potential
for
various
applications,
including
energy
storage
devices.
This
review
provides
comprehensive
analysis
recent
advancements
and
applications
MOFs
in
the
field
brief
overview
fundamental
aspects
MOFs,
their
synthesis,
structural
diversity,
tuneable
properties.
been
extensively
investigated
advanced
systems
supercapacitors.
can
be
employed
electrode
materials,
separators,
catalysts,
offering
enhanced
electrochemical
performance,
improved
charge/discharge
rates,
prolonged
cycling
stability.
The
unique
tunability
allows
rational
design
tailored
desired
properties,
such
high
specific
capacity,
excellent
conductivity,
superior
developments
MOF-based
capacitors,
particularly
significant
progress
reported
achieving
power
densities,
are
noteworthy.
exceptional
charge
capacity
combined
facile
synthesis
scalability,
makes
them
promising
candidates
next-generation
technologies.
sheds
light
on
challenges
opportunities
practical
implementation
devices
discusses
strategies
enhancing
stability
different
environments,
improving
electrical
developing
scalable
methods.
We
briefly
discuss
perspectives
future
directions,
particular
focus
research
development
use
applications.
