Energy Material Advances,
Journal Year:
2023,
Volume and Issue:
4
Published: Jan. 1, 2023
Over
the
past
few
decades,
metal–organic
frameworks
(MOFs)
have
been
recognized
as
most
attractive
energy-involved
materials
due
to
their
unique
features,
including
ultrahigh
specific
surface
area,
superior
porous
structure,
and
excellent
customizability.
Nevertheless,
pristine
MOFs
suffer
from
low
electronic
conductivity
chemical
instability,
which
severely
hindered
large-scale
applications.
Recently,
MXene
with
abundant
terminations
high
metallic
suggested
a
valid
substrate
improve
stability
of
MOFs.
Importantly,
MXene/MOF
composites
enhanced
conductivity,
rich
chemistry,
hierarchical
structure
facilitate
rapid
electron/ion
transfer
deliver
better
electrochemical
properties
than
that
original
through
synergistic
effects.
Moreover,
can
be
designed
into
various
derivatives
desired
architecture
performance.
Therefore,
elaborate
synthesis
hybrids
for
devices
are
great
interest.
Herein,
we
provided
state-of-the-art
review
on
progress
in
terms
strategies
Furthermore,
put
forward
current
challenges
feasible
research
directions
future
development.
Nanomaterials,
Journal Year:
2023,
Volume and Issue:
14(1), P. 62 - 62
Published: Dec. 25, 2023
With
the
growing
demand
for
technologies
to
sustain
high
energy
consumption,
supercapacitors
are
gaining
prominence
as
efficient
storage
solutions
beyond
conventional
batteries.
MXene-based
electrodes
have
gained
recognition
a
promising
material
supercapacitor
applications
because
of
their
superior
electrical
conductivity,
extensive
surface
area,
and
chemical
stability.
This
review
provides
comprehensive
analysis
recent
progress
strategies
in
development
supercapacitors.
It
covers
various
synthesis
methods,
characterization
techniques,
performance
parameters
these
electrodes.
The
also
highlights
current
challenges
limitations,
including
scalability
stability
issues,
suggests
potential
solutions.
future
outlooks
directions
further
research
this
field
discussed,
creation
new
methods
exploration
novel
applications.
aim
is
offer
up-to-date
understanding
state-of-the-art
stimulate
field.
Inorganics,
Journal Year:
2024,
Volume and Issue:
12(4), P. 112 - 112
Published: April 12, 2024
Two-dimensional
transition
metal
carbides/nitrides
(MXenes)
are
emerging
members
of
the
two-dimensional
material
family,
obtained
by
removing
A
layer
MAX
phase
through
methods
such
as
liquid-phase
etching.
This
article
summarizes
structure
and
properties
MXenes,
well
several
preparation
methods,
including
etching
with
hydrofluoric
acid
fluoride
salts,
alkali-based
etching,
electrochemical
Lewis
molten
salt
direct
synthesis.
Due
to
their
unique
surface
chemistry,
MXenes
exhibit
good
metallic
conductivity,
hydrophilicity,
excellent
flexibility,
ion
intercalation
properties,
showing
great
potential
in
research
application
supercapacitors
attracting
widespread
attention.
The
combination
MXene
other
types
materials,
polymers,
hydroxides,
oxides,
carbon
takes
advantage
composites
improve
energy
storage
performance
shows
supercapacitors.
provides
a
detailed
summary
composite
materials
capacitor
introduces
progress
field
supercapacitor
applications,
aiming
provide
references
for
high-performance
electrode
materials.
