The Chemical Record,
Год журнала:
2024,
Номер
24(4)
Опубликована: Фев. 22, 2024
Abstract
MXenes
are
two‐dimensional
nanomaterials
with
unique
properties
that
widely
used
in
various
fields
of
research,
mostly
the
field
energy.
Fewer
publications
devoted
to
MXene
application
biomedicine
and
question
is:
safe
for
use
biological
systems?
The
sharp
edges
provide
structure
”nanoknives“
which
cause
damage
direct
physical
contact
cells.
This
is
effectively
antibacterial
research.
However,
on
other
hand,
most
studies
cultured
cells
rodents
report
they
do
not
obvious
signs
cytotoxicity
fully
biocompatible.
aim
our
review
was
consider
whether
can
really
be
considered
non‐toxic
Often
last
two
concepts
confused.
We
first
reviewed
aspects
such
as
stability
biodegradation
MXenes,
then
analyzed
mechanisms
toxicity
their
consequences
bacteria,
cells,
rodents,
subsequent
conclusions
regarding
biocompatibility.
Energies,
Год журнала:
2023,
Номер
16(8), С. 3520 - 3520
Опубликована: Апрель 18, 2023
MXenes
are
progressively
evolving
two-dimensional
(2D)
materials
with
an
expanding
wide
range
of
applications
in
the
field
energy
storage.
They
rank
among
best
electrode
for
cutting-edge
storage
systems.
Energy
device
performance
is
greatly
enhanced
by
and
their
composite
materials.
As
technology
has
improved
over
last
several
decades,
demand
high-capacity
devices
that
versatile,
sturdy,
have
cheap
production
costs
increased.
MXene,
which
based
on
Nb2CTx,
most
current
material
to
emerge
applications.
Nb2CTx
MXene
now
sought-after
2D
family
due
its
flexibility,
high
conductivity,
superior
electrochemical
nature,
hydrophilicity,
tunable
surface
functional
groups,
great
mechanical
properties,
layered
structure.
Examples
include
gas
biosensors,
water
splitting,
purification,
antimicrobial
coatings,
electromagnetic
interference
shielding,
transparent
electrical
conductors.
Because
distinctive
properties
scientists
working
further
theoretical
experimental
enhancements.
The
objective
this
work
deliver
outline
breakthroughs
construction
robust,
flexible,
highly
effective
powered
supercapacitors.
Deep
research
been
conducted
structure
as
well
different
synthesis
techniques
properties.
emphasis
also
placed
how
various
aspects,
such
architecture
design,
electrolyte
composition,
so
on,
influence
charge
efficiency
MXene-based
This
article
discusses
recent
advancements
composite-based
ACS Nano,
Год журнала:
2023,
Номер
17(20), С. 19526 - 19549
Опубликована: Окт. 7, 2023
The
reconstruction
engineering
of
tissue
defects
accompanied
by
major
diseases
including
cancer,
infection,
and
inflammation
is
one
the
important
challenges
in
clinical
medicine.
development
innovative
strategies
such
as
multifunctional
bioactive
materials
presents
a
great
potential
to
overcome
challenge
disease-impaired
regeneration.
As
representative
two-dimensional
nanomaterials,
MXenes
have
shown
physicochemical
properties
been
diffusely
studied
multimodal
nanoplatforms
field
biomedicine.
This
review
summarized
recent
advances
integrated
regeneration-therapy
applications
MXene-based
biomaterials,
regeneration-tumor
therapy,
regeneration-infection
regeneration-inflammation
therapy.
recognized
good
candidates
for
promoting
regeneration
treating
through
photothermal
regulating
cell
behavior,
drug
gene
delivery.
current
future
perspectives
biomaterials
are
also
discussed
well
this
review.
In
summary,
promising
disease
treatment
due
their
favorable
functions.
However,
there
still
many
obstacles
that
must
be
addressed
understanding
mechanism,
ensuring
long-term
biosafety,
improving
targeting
therapy
capacity.
Advanced Materials,
Год журнала:
2024,
Номер
36(35)
Опубликована: Июнь 25, 2024
The
compact
three-dimensional
(3D)
structure
of
extracellular
polymeric
substances
(EPS)
within
biofilms
significantly
hinders
the
penetration
antimicrobial
agents,
making
biofilm
eradication
challenging
and
resulting
in
persistent
biofilm-associated
infections.
To
address
this
challenge,
a
solution
is
proposed:
probiotic
bio-heterojunction
(P-bioHJ)
combining
Lactobacillus
rhamnosus
with
MXene
(Ti
Frontiers in Bioengineering and Biotechnology,
Год журнала:
2024,
Номер
12
Опубликована: Фев. 1, 2024
Increasing
bacterial
infections
and
growing
resistance
to
available
drugs
pose
a
serious
threat
human
health
the
environment.
Although
antibiotics
are
crucial
in
fighting
infections,
their
excessive
use
not
only
weakens
our
immune
system
but
also
contributes
resistance.
These
negative
effects
have
caused
doctors
be
troubled
by
clinical
application
of
antibiotics.
Facing
this
challenge,
it
is
urgent
explore
new
antibacterial
strategy.
MXene
has
been
extensively
reported
tumor
therapy
biosensors
due
its
wonderful
performance.
Due
large
specific
surface
area,
remarkable
chemical
stability,
hydrophilicity,
wide
interlayer
spacing,
excellent
adsorption
reduction
ability,
shown
potential
for
biopharmaceutical
applications.
However,
there
few
antimicrobial
evaluations
on
MXene.
The
current
mechanisms
mainly
include
physical
damage,
induced
oxidative
stress,
photothermal
photodynamic
therapy.
In
paper,
we
reviewed
MXene-based
composites
discussed
guide
further
research
field.
The Chemical Record,
Год журнала:
2024,
Номер
24(4)
Опубликована: Фев. 22, 2024
Abstract
MXenes
are
two‐dimensional
nanomaterials
with
unique
properties
that
widely
used
in
various
fields
of
research,
mostly
the
field
energy.
Fewer
publications
devoted
to
MXene
application
biomedicine
and
question
is:
safe
for
use
biological
systems?
The
sharp
edges
provide
structure
”nanoknives“
which
cause
damage
direct
physical
contact
cells.
This
is
effectively
antibacterial
research.
However,
on
other
hand,
most
studies
cultured
cells
rodents
report
they
do
not
obvious
signs
cytotoxicity
fully
biocompatible.
aim
our
review
was
consider
whether
can
really
be
considered
non‐toxic
Often
last
two
concepts
confused.
We
first
reviewed
aspects
such
as
stability
biodegradation
MXenes,
then
analyzed
mechanisms
toxicity
their
consequences
bacteria,
cells,
rodents,
subsequent
conclusions
regarding
biocompatibility.
