Chemistry - An Asian Journal,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 9, 2025
Abstract
Hydrogels
have
emerged
as
flexible
biomaterials
with
enormous
potential
in
biomedical
applications
due
to
their
outstanding
biocompatibility
and
ability
hold
a
high
water
concentration.
low
toxicity
are
biodegradable.
This
review
begins
look
at
the
various
riveting
characteristics
classifications
of
hydrogel
nanocomposites
reinforced
metallic
ceramic
components.
A
distinct
focus
is
offered
on
thoroughly
deliberating
surface
modification
techniques
special
attention
fabrication,
patterning,
fields.
The
describes
value
novel
cross‐linking
including
physical,
chemical,
physical‐chemical
dual
adapting
specific
applications.
also
explains
major
bioapplication
functionalized
hydrogels.
It
emphasizes
importance
nanocomposite
hydrogels
multifunctional
self‐assembled
monolayers
solving
contemporary
biological
difficulties
such
infection
control,
medication
delivery,
tissue
regeneration.
need
for
interdisciplinary
collaboration
ongoing
research
efforts
realize
full
nanomaterials
Overall,
this
gives
useful
insights
into
current
advances
future
possibilities
grafted
metals
additives
applications,
highlighting
multidisciplinary
cooperation
nano(bio)technology.
Advanced Theory and Simulations,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 30, 2025
Abstract
Silicone‐ethanol
actuator
is
a
new
type
of
artificial
muscle
that
expands
and
contracts
based
on
the
switching
ethanol
phase
between
liquid
gas
states
within
elastomeric
matrix.
However,
there
lack
accurate
ranking
parameters
affect
its
performance.
This
research
uses
cutting‐edge
statistical
qualitative
methods
to
rank
behavioral
characteristics
this
actuator.
In
research,
effect
power
intensity
performance
structural
changes
silicone‐ethanol
investigated,
for
first
time.
It
found
use
more
intense
increased
response
speed
actuator,
but
also
intensifies
damage.
Also,
results
show
energy
temperature
are
most
crucial
variables
in
predicting
dynamic
behavior
while
content
applied
important
functional
long
term.
hoped
scientific
approach
will
be
leveraged
distinguish
real
from
dummy
indices
other
newfound
smart
materials,
where
no
complete
knowledge
their
governing
physical
chemical
equations.
Bioconjugate Chemistry,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 11, 2025
Over
past
decades,
a
wide
range
of
nanomaterials
have
been
synthesized
and
exploited
to
augment
the
efficacy
biocompatibility
disease
theranostics
nanomedicine.
The
unique
physicochemical
properties
nanomaterials,
such
as
high
specific
surface
area,
tunable
size
shape,
versatile
chemistry,
enable
controlled
modulation
nanomaterial-biosystem
interactions
and,
consequently,
more
precise
interventions,
particularly
at
cellular
level.
selective
nanomaterial-cell
can
be
leveraged
regulate
internalization,
intracellular
trafficking
localization,
clearance
enhance
therapeutic
minimize
potential
cytotoxicity.
Herein,
we
provide
an
overview
our
recent
understanding
journey
modes
action
in
cells.
Specifically,
highlight
various
pathways
trafficking,
excretion
these
nanomaterials.
different
especially
release
delivery,
photothermal
photodynamic
effects,
immunomodulation,
are
also
discussed.
We
conclude
review
by
offering
some
perspectives
on
current
challenges
opportunities
this
field.
Materials,
Journal Year:
2025,
Volume and Issue:
18(3), P. 479 - 479
Published: Jan. 21, 2025
The
energy
generated
by
the
impact
of
vibrations
from
industrial
tools
or
ongoing
activities
can
be
transmitted
to
humans
and
cause
various
injuries.
Knitted
materials
considered
as
parts
anti-vibration
equipment
they
have
proven
their
ability
absorb
shocks.
In
this
study,
six
spacer
knitted
fabrics
consisting
two
outer
layers
cotton
yarns
(Nm
1/50
Nm
1/40)
cashmere
2/56)
connected
PES
monofilaments
with
a
diameter
0.08
mm
were
tested.
To
date,
use
natural
in
used
environments
subject
vibration
has
been
less
studied.
first
part
experiments
deals
measurement
frequencies
materials,
which
determined
using
free
method.
results
show
that
direction
experiment,
yarn
count,
stitch
density,
thickness
material
influence
value
frequencies.
These
values
are
relevant
order
avoid
undesirable
resonances
occur
when
excitation
frequency
an
external
system
overlaps
material.
second
part,
transmissibility
was
simulated
one
degree
freedom.
composed
had
highest
damping
capacity
specific
coefficient
lowest
for
transmission,
make
them
recommendable
protective
materials.
Sustainability,
Journal Year:
2025,
Volume and Issue:
17(4), P. 1569 - 1569
Published: Feb. 14, 2025
The
Qinling
Mountains
in
central
China
are
rich
polymetallic
mineralizations
(e.g.,
Pb-Zn-Au
deposits),
and
historic
mining
has
resulted
large
amounts
of
heavy
metals
being
released
into
the
environment.
Thus,
it
is
important
to
evaluate
ecological
risk
triggered
by
at
this
location.
In
work,
a
gold
mine
was
investigated
as
case
study
better
understand
health
risks
present
Mountains.
To
address
issue,
total
84
soil
samples
23
surface
water
were
collected
from
district.
Major
trace
elements
soils,
coupled
with
pH
SO4−2
contents
samples,
analyzed.
multivariate
statistical
analysis
shows
that
human
activities
found
have
significant
impact
on
levels
As,
Hg,
Cd),
pH,
within
area,
coefficient
variation
for
all
indicators
falls
medium
high
range
(0.20–2.73).
maximum
concentration
Cd
can
reach
3005
mg·kg−1.
spatial
distribution
its
isotope
signatures
indicate
sedimentation
ponds
slag
piles
primary
sources
pollution
metal
concentrations
decreasing
gradually
they
disperse
surrounding
cultivated
areas.
confirms
isotopes
be
directly
used
track
over
area
(0.8
km2),
conclusions
drawn
could
valuable
future
restoration
management
efforts.
Simultaneously,
approach
offer
novel
framework
contamination
soils
other
sites.
Scientific Reports,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: March 7, 2025
To
foster
greater
trust
and
adoption
of
machine
learning
models,
particularly
neural
networks,
it
is
essential
to
develop
approaches
that
quantify
report
epistemic
uncertainties
alongside
random
uncertainties,
which
often
affect
the
accuracy
Recurrent
Neural
Networks
(RNNs).
Addressing
these
challenges,
this
study
proposes
a
hybrid
approach
integrating
Bayesian
techniques
deep
improve
classification
nanocomposites
with
focus
on
evaluating
their
conductivity
properties.
The
proposed
framework
begins
Network
(BN)
model,
provides
probabilistic
insights
into
conductive
behavior
by
analyzing
distribution
interaction
constituent
nanoparticles.
This
foundation
complemented
(RNN)
based
Transformer
architecture,
enhances
capturing
sequential
dependencies
complex
data
patterns.
model
combines
reasoning
capabilities
BNs
strengths
RNNs,
yielding
more
robust
adaptable
methodology.
While
primarily
focuses
methodological
advancements,
experimental
results
demonstrate
significantly
outperforms
individual
in
terms
key
evaluation
metrics.
integrated
thus
represents
promising
step
toward
improving
predictive
nanocomposite
conductivity,
offering
balance
between
interpretability
data-driven
accuracy.
Sustainability,
Journal Year:
2025,
Volume and Issue:
17(6), P. 2544 - 2544
Published: March 13, 2025
Urbanization
leads
to
increased
stormwater
runoff,
placing
enormous
pressure
on
the
drainage
system,
including
that
of
port
cities
in
Hunan
Province.
This
increases
risk
urban
flooding
and
threatens
sustainability
ecosystem.
In
this
study,
we
employed
Storm
Water
Management
Model
(SWMM)
assess
surface
runoff
pollutant
accumulation
(TSS,
COD,
TN,
TP)
under
varying
storm
conditions
evaluate
efficacy
low-impact
development
(LID)
measures
mitigating
these
impacts.
The
results
included
a
peak
ratio
0.45,
indicating
complex
concentration
dynamics
good
agreement
with
observed
rainfall
patterns.
installation
permeable
paving,
rainwater
infiltration
ditches,
storage
tanks
reduced
flows
by
33.3%,
30%,
50%,
respectively,
also
reducing
total
phosphorus
(TP)
load
29.17%.
addition,
it
was
found
collected
cisterns
could
be
used
not
only
for
resource
recycling
but
replenish
groundwater
resources.
demonstrates
significantly
reduce
loads
effectively
promote
sustainable
use
cost–benefit
analyses
show
long-term
benefits
LID
systems
are
superior
those
traditional
management
systems.
Therefore,
can
improve
flood
prevention
mitigation
capabilities
green
transformation
cities.
