Chemistry - An Asian Journal,
Journal Year:
2024,
Volume and Issue:
19(16)
Published: June 17, 2024
Hydrogen-driven
energy
is
fascinating
among
the
everlasting
sources,
particularly
for
stationary
and
onboard
transportation
applications.
Efficient
hydrogen
storage
presents
a
key
challenge
to
accomplishing
sustainability
goals
of
economy.
In
this
regard,
solid-state
in
nanomaterials,
either
physically
or
chemically
adsorbed,
has
been
considered
safe
path
establishing
goals.
Though
metal
hydrides
have
extensively
explored,
they
fail
comply
with
set
targets
practical
utilization.
Recently,
MXenes,
both
bare
form
hybrid
state
hydrides,
proven
their
flair
ascertaining
hydrides'
theoretical
experimental
capabilities
far
beyond
fancy
materials
current
state-of-the-art
technologies.
This
review
encompasses
significant
accomplishments
achieved
by
MXenes
(primarily
2019-2024)
enhancing
performance
various
hydride
such
as
MgH
Small,
Journal Year:
2022,
Volume and Issue:
19(14)
Published: Dec. 14, 2022
Abstract
The
Internet
of
Things
era
has
promoted
enormous
research
on
sensors,
communications,
data
fusion,
and
actuators.
Among
them,
sensors
are
a
prerequisite
for
acquiring
the
environmental
information
delivering
to
an
artificial
center
make
decisions.
MXene‐based
have
aroused
tremendous
interest
because
their
extraordinary
performances.
In
this
review,
electrical,
electronic,
optical
properties
MXenes
first
introduced.
Next,
discussed
according
sensing
mechanisms
such
as
electrochemical,
methods.
Initially,
biosensors
introduced
based
chemiresistors
field‐effect
transistors.
Besides,
wearable
pressure
sensor
is
demonstrated
with
piezoresistive
devices.
Third,
electrochemical
methods
include
amperometry
electrochemiluminescence
examples.
addition,
approaches
refer
surface
plasmonic
resonance
fluorescence
energy
transfer.
Moreover,
prospects
delivered
multimodal
fusion
toward
complicated
human‐like
senses.
Eventually,
future
opportunities
MXene
conveyed
in
new
material
discovery,
structure
design,
proof‐of‐concept
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
36(8)
Published: Oct. 9, 2023
Abstract
Nanozymes
are
considered
as
the
promising
antimicrobial
agents
due
to
enzyme‐like
activity
for
chemo‐dynamic
therapy
(CDT).
However,
it
remains
a
challenge
develop
novel
nanozyme
systems
achieving
stimuli‐responsive,
and
efficient
catalysis
with
multimodal
synergistic
enhancement.
In
this
work,
near‐infrared
(NIR)
plasmonic‐enhanced
photothermal
performance
effective
applications
proposed.
A
Ti
3
C
2
MXene/Fe‐MOFs
composite
(MXM)
NIR
CDT
combined
properties
is
successfully
developed
by
loading
metal‐organic
framework
(MOF)
nanozymes
onto
MXene.
The
mechanism
of
induced
localized
surface
plasmon
resonance
(LSPR)‐enhanced
(PTT)
well
explained
through
activation
energy
(
E
),
electrochemical
impedance
spectroscopy
(EIS),
X‐ray
photoelectron
(XPS),
fluorescence
analysis
experiments,
finite
element
simulation.
It
reveals
that
MXene
nanosheets
exhibit
exciters
generate
hot
electrons
can
transfer
Fe‐MOFs,
promoting
Fenton
reaction
enhances
CDT.
While
heating
produced
LSPR
also
boost
Fe‐MOFs
under
irradiation.
Both
in
vitro
vivo
experimental
results
demonstrate
LSPR‐induced
MXM
system
has
outstanding
properties,
promote
angiogenesis
collagen
deposition,
leading
accelerated
wound
healing.
Advanced Functional Materials,
Journal Year:
2022,
Volume and Issue:
33(1)
Published: Nov. 14, 2022
Abstract
Confronted
by
the
difficulties
of
von
Neumann
bottleneck
and
memory
wall,
traditional
computing
systems
are
gradually
inadequate
for
satisfying
demands
future
data‐intensive
applications.
Recently,
memristors
have
emerged
as
promising
candidates
advanced
in‐memory
neuromorphic
computing,
which
pave
one
way
breaking
through
dilemma
current
architecture.
Till
now,
varieties
functional
materials
been
developed
constructing
high‐performance
memristors.
Herein,
review
focuses
on
emerging
2D
MXene
materials‐based
First,
mainstream
synthetic
strategies
characterization
methods
MXenes
introduced.
Second,
different
types
MXene‐based
memristive
their
widely
adopted
switching
mechanisms
overviewed.
Third,
recent
progress
data
storage,
artificial
synapses,
logic
circuits
is
comprehensively
summarized.
Finally,
challenges,
development
trends,
perspectives
discussed,
aiming
to
provide
guidelines
preparation
novel
more
engaging
information
technology
ACS Omega,
Journal Year:
2022,
Volume and Issue:
7(43), P. 38158 - 38192
Published: Oct. 20, 2022
Introducing
new
materials
with
low
cost
and
superior
solar
harvesting
efficiency
requires
urgent
attention
to
solve
energy
environmental
challenges.
Titanium
carbide
(Ti3C2Tx)
MXene,
a
2D
layered
material,
is
promising
solution
the
issues
of
existing
due
their
conductivity
function
as
cocatalyst/support.
On
other
hand,
metal–organic
frameworks
(MOFs)
are
emerging
high
surface
area
semiconducting
characteristics.
Therefore,
coupling
them
would
be
form
composites
higher
efficiency.
Thus,
main
objective
this
work
disclose
recent
development
in
Ti3C2Tx-based
MOF
nanocomposites
for
conversion
applications
produce
renewable
fuels.
MOFs
can
generate
photoinduced
electron/hole
pairs,
followed
by
transfer
electrons
MXenes
through
Schottky
junctions
photoredox
reactions.
Currently,
principles,
fundamentals,
mechanism
photocatalytic
systems
construction
critically
discussed.
Then
basics
discussed
thoroughly
terms
physical
properties,
morphologies,
optical
derivatives.
The
synthesis
Ti3C2Tx
formation
functionals
systematically
illustrated.
Next,
critical
discussions
conducted
on
design
considerations
strategies
engineer
morphology
MOFs.
interfacial/heterojunction
modification
then
deeply
understand
roles
both
materials.
Following
that,
MXene-mediated
nanotextures
view
CO2
reduction
water
splitting
fuel
production
analyzed.
Finally,
challenges
perspective
toward
future
research
MXene-based
disclosed.
