E3S Web of Conferences,
Год журнала:
2024,
Номер
547, С. 03020 - 03020
Опубликована: Янв. 1, 2024
We
explore
the
many
ways
biocompatible
nanomaterials
may
be
used
in
sustainable
biomedical
settings.
Quantum
dots
are
10
nm
size,
carbon
nanotubes
50
nm,
iron
oxide
nanoparticles
25
gold
20
and
silver
30
nm.
The
physicochemical
features
of
these
different
from
one
another.
These
encapsulate
therapeutic
substances,
according
to
drug
loading
evaluations;
for
example,
can
hold
15
mg/g
oxide,
12
silver,
18
nanotubes,
carbon,
quantum
dots.
Nanoparticles
(95%
vitality
after
24
hours),
(93%
viability),
(97%
(92%
(90%
viability)
highlight
biocompatibility
materials.
Fluorescence
intensities
1000
AU
nanoparticles,
980
1050
900
1100
were
observed
vivo
imaging
investigations,
further
demonstrating
potential
as
contrast
agents.
By
conducting
thorough
assessments
analyses,
this
study
reveals
how
create
long-term
applications,
such
molecular
targeted
delivery,
which
will
improve
healthcare
solutions
patient
outcomes.
Chemical Society Reviews,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 1, 2025
Recent
advancements
in
wearable
biosensors
and
bioelectronics
highlight
biocompatible
conducting
nanocomposite
hydrogels
as
key
components
for
personalized
health
devices
soft
electronics.
RSC Advances,
Год журнала:
2023,
Номер
13(49), С. 34562 - 34575
Опубликована: Янв. 1, 2023
Metal-organic
frameworks
(MOFs)
and
MXenes
have
demonstrated
immense
potential
for
biomedical
applications,
offering
a
plethora
of
advantages.
MXenes,
in
particular,
exhibit
robust
mechanical
strength,
hydrophilicity,
large
surface
areas,
significant
light
absorption
potential,
tunable
terminations,
among
other
remarkable
characteristics.
Meanwhile,
MOFs
possess
high
porosity
area,
making
them
ideal
protecting
active
biomolecules
serving
as
carriers
drug
delivery,
hence
their
extensive
study
the
field
biomedicine.
However,
akin
to
(nano)materials,
concerns
regarding
environmental
implications
persist.
The
number
studies
investigating
toxicity
biocompatibility
is
growing,
albeit
further
systematic
research
needed
thoroughly
understand
biosafety
issues
biological
effects
prior
clinical
trials.
synthesis
often
involves
use
strong
acids
temperatures,
which,
if
not
properly
managed,
can
adverse
on
environment.
Efforts
should
be
made
minimize
release
harmful
byproducts
ensure
proper
waste
management
during
production
process.
In
addition,
it
crucial
assess
into
environment
applications.
For
applications
MOFs,
several
challenges
exist.
These
include
fabrication
costs,
poor
selectivity,
low
capacity,
quest
stable
water-resistant
well
difficulties
recycling/regeneration
maintaining
chemical/thermal/mechanical
stability.
Thus,
careful
consideration
associated
with
utilization
vital.
addition
manufacturing
processes,
ultimate
fate
must
taken
account.
While
numerous
reviews
been
published
this
perspective
aims
shed
key
issues,
urging
researchers
conduct
field.
aspects
biomedicine
are
discussed,
focusing
main
outlining
future
directions.
Abstract
This
review
highlights
recent
advancements
in
the
synthesis,
processing,
properties,
and
applications
of
2D‐material
integrated
hydrogels,
with
a
focus
on
their
performance
bone‐related
applications.
Various
synthesis
methods
types
2D
nanomaterials,
including
graphene,
graphene
oxide,
transition
metal
dichalcogenides,
black
phosphorus,
MXene
are
discussed,
along
strategies
for
incorporation
into
hydrogel
matrices.
These
composite
hydrogels
exhibit
tunable
mechanical
high
surface
area,
strong
near‐infrared
(NIR)
photon
absorption
controlled
release
capabilities,
making
them
suitable
range
regeneration
therapeutic
In
cancer
therapy,
2D‐material‐based
show
promise
photothermal
photodynamic
therapies,
drug
delivery
(chemotherapy).
The
properties
these
materials
enable
selective
tumor
ablation
upon
NIR
irradiation,
while
drug‐loading
capacity
facilitates
targeted
chemotherapeutic
agents.
Additionally,
2D‐materials
‐infused
potent
antibacterial
activity,
effective
against
multidrug‐resistant
infections
disruption
biofilm
generated
implant
surface.
Moreover,
synergistic
therapy
approach
combines
multiple
treatment
modalities
such
as
photothermal,
chemo,
immunotherapy
to
enhance
outcomes.
bio‐imaging,
serve
versatile
contrast
agents
imaging
probes,
enabling
real‐time
monitoring
during
imaging.
Furthermore,
bone
regeneration,
most
incorporated
promote
osteogenesis
tissue
offering
potential
solutions
defects
repair.
Overall,
integration
presents
promising
platform
developing
multifunctional
theragenerative
biomaterials.
Nano-Micro Letters,
Год журнала:
2024,
Номер
16(1)
Опубликована: Март 4, 2024
Soft
actuators
have
garnered
substantial
attention
in
current
years
view
of
their
potential
appliances
diverse
domains
like
robotics,
biomedical
devices,
and
biomimetic
systems.
These
mimic
the
natural
movements
living
organisms,
aiming
to
attain
enhanced
flexibility,
adaptability,
versatility.
On
other
hand,
angle-independent
structural
color
has
been
achieved
through
innovative
design
strategies
engineering
approaches.
By
carefully
controlling
size,
shape,
arrangement
nanostructures,
researchers
able
create
materials
exhibiting
consistent
colors
regardless
viewing
angle.
One
promising
class
that
holds
great
for
bioinspired
soft
is
MXenes
exceptional
mechanical,
electrical,
optical
properties.
The
integration
with
offers
exciting
possibilities.
Overcoming
material
compatibility
issues,
improving
reproducibility,
scalability,
durability,
power
supply
efficiency,
cost-effectiveness
will
play
vital
roles
advancing
these
technologies.
This
perspective
appraises
development
MXene-centered
robotics.
ACS Biomaterials Science & Engineering,
Год журнала:
2024,
Номер
10(4), С. 1892 - 1909
Опубликована: Март 11, 2024
MXenes
and
their
composites
hold
great
promise
in
the
field
of
soft
bone
tissue
regeneration
engineering
(TRE).
However,
there
are
challenges
that
need
to
be
overcome,
such
as
ensuring
biocompatibility
controlling
morphologies
MXene-based
scaffolds.
The
future
prospects
TRE
include
enhancing
through
surface
modifications,
developing
multifunctional
constructs,
conducting
vivo
studies
for
clinical
translation.
purpose
this
perspective
about
is
critically
evaluate
potential
applications
contributions
field.
This
aims
provide
a
comprehensive
analysis
challenges,
advantages,
limitations,
associated
with
use
TRE.
By
examining
existing
literature
research,
review
seeks
consolidate
current
knowledge
highlight
key
findings
advancements
It
contribute
understanding
MXenes'
role
promoting
TRE,
addressing
faced
terms
biocompatibility,
morphology
control,
interactions.
Materials,
Год журнала:
2024,
Номер
17(6), С. 1423 - 1423
Опубликована: Март 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.
RSC Advances,
Год журнала:
2024,
Номер
14(49), С. 36835 - 36851
Опубликована: Янв. 1, 2024
Exploring
the
symbiotic
relationship
between
MXenes
and
AI,
this
highlight
focuses
on
recent
advancements
pertaining
to
prediction
optimization
of
properties,
synthesis
routes,
diverse
applications
MXene
materials.
