Micromachines,
Год журнала:
2025,
Номер
16(5), С. 530 - 530
Опубликована: Апрель 29, 2025
Recent
findings
have
demonstrated
that
the
desalination
and
purification
of
contaminated
water
separation
ions
gases,
besides
solutions
to
other
related
issues,
may
all
be
achieved
with
use
membranes
based
on
artificial
nanoporous
materials.
Before
expensive
stages
production
experimental
testing,
optimum
size
form
membrane
nanopores
could
determined
using
computer-aided
modeling.
The
notion
rectangular
created
in
a
multilayered
hexagonal
boron
nitride
(h-BN)
way
results
different
inner
lining
atoms
would
exhibit
unique
properties
terms
penetration
rate
is
put
forth
examined
current
study.
Nanopores
sheets
can
generated
(B-edged),
nitrogen
(N-edged),
or
both
(BN-edged).
In
this
study,
we
compared
three
inner-lined
nanosheets
comparable-sized
graphene
nanopore
evaluated
conduction.
Polymers for Advanced Technologies,
Год журнала:
2025,
Номер
36(2)
Опубликована: Фев. 1, 2025
ABSTRACT
Recent
developments
in
polymer
materials
have
led
to
an
increased
implementation
of
hydrogels
biomedical
settings,
especially
the
creation
smart
hydrogels.
Traditional
single‐network
often
exhibit
challenges,
such
as
poor
mechanical
strength,
insufficient
biocompatibility,
and
slow
response
rates.
To
address
these
issues,
researchers
introduced
Interpenetrating
Polymer
Network
(IPN)
hydrogels,
which
significantly
improve
strength
via
topological
entanglements
physical
interactions.
This
dual‐network
design
not
only
enhances
biocompatibility
but
also
responsiveness
stimuli,
endowing
with
distinctive
properties
like
cell
adhesion,
conductivity,
hemostatic
functions,
antioxidant
abilities,
color‐changing
properties.
The
purpose
this
article
is
elucidate
factors
that
trigger
stimuli
IPN
their
impacts
on
cellular
behavior,
various
applications
they
can
serve.
A
comprehensive
overview
provided
regarding
classification,
mechanisms,
performance
attributes,
related
subjects.
Ultimately,
review
emphasizes
promise
hold
fulfilling
increasing
need
for
innovative
improved
features
sector.
Journal of Microencapsulation,
Год журнала:
2025,
Номер
unknown, С. 1 - 27
Опубликована: Фев. 24, 2025
Gadolinium
(Gd)
nanoparticles
hold
significant
promise
in
medical
theranostics
due
to
their
unique
properties.
This
review
outlines
the
synthesis,
characterisation,
and
applications
of
Gd
nanostructures
combating
microbial
threats
advancing
cancer
theragnostic
strategies.
Synthesis
methods
such
as
co-precipitation,
microemulsion,
laser
ablation
are
discussed,
alongside
TEM,
SEM,
magnetic
characterisation.
The
antimicrobial
efficacy
nanostructures,
potential
combination
therapy,
promising
anticancer
mechanisms
explored.
Biocompatibility,
toxicity,
regulatory
considerations
also
evaluated.
Challenges,
future
perspectives,
emerging
trends
nanostructure
research
highlighted,
emphasising
transformative
applications.
