Environmental Technology Reviews,
Journal Year:
2025,
Volume and Issue:
14(1), P. 273 - 309
Published: March 18, 2025
MXenes
are
a
quickly
developing
group
of
two-dimensional
(2D)
materials
made
up
carbonitrides,
nitrides,
and
carbides
transition
metals,
have
shown
great
promise
in
water
purification
because
their
special
qualities,
including
hydrophilicity,
tunable
surface
chemistry,
high
area.
Eliminating
heavy
organic
contaminants,
microbes
from
is
one
the
problems
that
may
now
effectively
handle
thanks
to
recent
developments
preparation
functionalization.
Nowadays,
2D
can
be
used
as
potential
candidates
for
wastewater
treatment
due
distinctive
characteristics
appealing
effectiveness.
These
include
significant
chemical
stability,
strong
electrical
thermal
conductivity,
only
available
reduction
sorption
capability,
large
area,
eco-friendly
features.
The
current
research
on
reviewed
detail
this
paper,
along
with
synthesis
techniques,
which
top-down
(etching
MAX
phases)
bottom-up
(direct
synthesis),
emphasising
advantages
disadvantages
each.
X-ray
diffraction
(XRD)
scanning
electron
microscopy
(SEM)
techniques
highlighted
throughout
discussion,
incorporates
structure,
morphology,
quality
MXenes.
In
purification,
operate
excellent
adsorbents
antibacterial
agents.
Because
remarkable
physicochemical
diverse
drawn
lot
interest
treatment.
By
giving
summary
prospective
future
directions
paper
highlights
MXene-based
filtering
provide
long-term
solutions
world's
issues.
Materials,
Journal Year:
2024,
Volume and Issue:
17(6), P. 1423 - 1423
Published: March 20, 2024
MXenes
are
two-dimensional
transition
metal
carbides,
nitrides,
and
carbonitrides
that
have
become
important
materials
in
nanotechnology
because
of
their
remarkable
mechanical,
electrical,
thermal
characteristics.
This
review
emphasizes
how
crucial
MXene
conjugates
for
several
biomedical
applications,
especially
the
field
cancer.
These
(2D)
nanoconjugates
with
photothermal,
chemotherapeutic,
photodynamic
activities
demonstrated
promise
highly
effective
noninvasive
anticancer
therapy.
conjugates,
distinctive
optical
capabilities,
been
employed
bioimaging
biosensing,
excellent
light-to-heat
conversion
efficiency
makes
them
perfect
biocompatible
notably
proficient
nanoscale
agents
photothermal
applications.
The
synthesis
characterization
provide
a
framework
an
in-depth
understanding
various
fabrication
techniques
importance
customized
formation
conjugates.
following
sections
explore
MXene-based
nanotheranostics
demonstrate
enormous
potential
Nanoconjugates,
such
as
polymers,
metals,
graphene,
hydrogels,
biomimetics,
quantum
dots,
radio
exhibit
unique
properties
can
be
used
therapeutic
diagnostic
applications
cancer
nanotheranostics.
An
additional
layer
into
safety
concerns
is
provided
by
detailing
toxicity
viewpoints.
Furthermore,
concludes
addressing
opportunities
challenges
clinical
translation
nanoconjugates,
emphasizing
real-world
medical
practices.
Nanoscale Advances,
Journal Year:
2024,
Volume and Issue:
6(14), P. 3513 - 3532
Published: Jan. 1, 2024
Recent
advancements
in
MXene-based
wound
dressings
are
discussed,
focusing
on
their
contributions
to
tissue
regeneration,
infection
control,
anti-inflammation
and
photothermal
effects,
targeted
therapeutic
delivery.
