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.
Dalton Transactions,
Journal Year:
2024,
Volume and Issue:
53(17), P. 7477 - 7497
Published: Jan. 1, 2024
A
novel
lanthanide
MOF-FCNT
composite
is
fabricated
and
employed
as
a
symmetric
supercapacitor
(SSC)
device
with
the
highest
energy
density
reported
so
far.
Green Energy & Environment,
Journal Year:
2024,
Volume and Issue:
9(11), P. 1650 - 1665
Published: June 10, 2024
Polyethylene
terephthalate
(PET)
as
one
of
non-degradable
wastes
has
become
a
huge
threat
to
the
environment
and
human
health.
Chemical
Recycle
PET
is
an
sustainable
way
release1,4-benzenedicarboxylic
acid
(BDC)
monomer
common
used
organic
linker
for
synthesis
functional
Metal–organic-frameworks
(PET-derived
MOFs)
such
UiO-66,
MIL-101,
etc.
This
cost-effective
"Waste-to-MOFs"
model
great
significant
be
intensively
investigated
in
past
years.
Attributes
substantial
porosity,
specific
surface
area,
exposed
metal
centers,
uniform
structure,
flexible
morphology
render
PET-derived
MOFs
are
well-suited
applications
adsorption,
energy
storage,
catalysis,
among
others.
Herein,
present
work,
we
have
summarized
recent
advances
using
ex-situ
in-situ
methods
typical
catalysis
storage.
Despite
those
improvements
potential
applications,
challenges
still
remain
development
green
economical
routes
fully
utilize
waste
massive
manufacture
valuable
MOF
materials
chemicals.
review
provides
insights
into
conversion
value-added
materials,
further
suggests
promising
perspectives
develop
addressing
environmental
pollution
crises.
