Journal of Composites Science,
Journal Year:
2024,
Volume and Issue:
8(11), P. 441 - 441
Published: Oct. 25, 2024
This
study
addresses
the
development
of
UV-curable
polymer
nanocomposites
(PNCs),
mainly
based
on
acrylate,
emphasizing
material
selection
and
formulation
strategies
that
achieve
efficient
dispersion
nanofillers
(NFs).
We
begin
by
exploring
various
types
UV-curing
coatings
delve
deeper
into
their
key
components:
monomers,
oligomers,
photoinitiators,
fillers,
additives.
Different
components
examples
are
presented.
Furthermore,
this
delves
critical
importance
modifying
NFs
to
tune
physical
properties
composite.
It
provides
an
overview
commonly
used
underscores
surface
modification
(chemical
physical)
as
a
pivotal
technique
for
producing
high-performance
PNCs.
Additionally,
additives
such
adhesion
promoters,
anti-foaming
agents,
wetting
dispersing
agents
discussed,
functions
within
process.
blending
methods
also
discussed.
The
paper
concludes
summarizing
presenting
recent
advancements
in
offers
valuable
insights
researchers
engineers
working
advanced
materials.
Advanced Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 12, 2025
Ulcerative
colitis
(UC)
is
a
chronic
gastrointestinal
inflammatory
disorder
with
rising
prevalence.
Due
to
the
recurrent
and
difficult-to-treat
nature
of
UC
symptoms,
current
pharmacological
treatments
fail
meet
patients'
expectations.
This
study
presents
machine
learning-assisted
high-throughput
screening
strategy
expedite
discovery
efficient
nanozymes
for
treatment.
Therapeutic
requirements,
including
antioxidant
property,
acid
stability,
zeta
potential,
are
quantified
predicted
by
using
learning
model.
Non-quantifiable
attributes,
intestinal
barrier
repair
efficacy
biosafety,
assessed
via
screening.
Feature
significance
analysis,
sure
independence
screening,
sparsifying
operator
symbolic
regression
reveal
high-dimensional
structure-activity
relationships
between
material
features
therapeutic
needs.
SrDy
Journal of Nanotheranostics,
Journal Year:
2024,
Volume and Issue:
6(1), P. 1 - 1
Published: Dec. 28, 2024
Carbon
dots
(CDs)
are
a
class
of
carbon-based
nanomaterials
undergoing
rapid
development
with
broad
potential
applications
across
diverse
biomedical
fields.
These
materials
highly
attractive
for
diagnostics,
therapeutics,
and
nanomedicine
due
to
their
remarkable
optical
physicochemical
properties,
including
photoluminescence,
biocompatibility,
aqueous
dispersibility.
CDs
can
be
synthesized
using
various
techniques,
ranging
from
top-down
bottom-up
approaches.
Among
these,
biogenic
synthesis,
utilizing
natural
sources
waste
materials,
presents
an
eco-friendly
sustainable
alternative.
have
exhibited
considerable
promise
in
especially
bioimaging
biosensing,
providing
both
high
sensitivity
precise
identification.
presently
being
investigated
the
pharmaceutical
sector
cancer
infection
treatment,
as
well
photodynamic
thermal
therapies.
The
advancement
CD
composites,
through
enhanced
functionality
broader
application,
facilitates
novel
research
nanomedicine.
This
article
highlights
advantages
CDs,
focusing
on
structural
classification,
versatility
synthesis
methods.
Furthermore,
safety
toxicity
profiles
critically
analyzed.
In
conclusion,
innocuity,
adaptability,
multifunctionality
position
them
cornerstone
nanotechnology
applications.
With
applicability
promising
potential,
stand
poised
drive
significant
innovation
other
domains,
heralding
new
era
material
development.
International Journal of Scientific Research in Science Engineering and Technology,
Journal Year:
2025,
Volume and Issue:
12(1), P. 164 - 180
Published: Feb. 3, 2025
Breast
cancer
continues
to
rank
as
a
predominant
cause
of
illness
and
death
among
women
globally,
emphasizing
the
critical
need
for
innovative
effective
treatment
approaches.
Traditional
methods
such
chemotherapy,
surgery,
radiation
therapy
often
face
limitations,
including
toxicity,
resistance,
non-specific
targeting.
In
recent
years,
advancements
in
nanotechnology
have
brought
about
transformative
solutions,
with
nanoengineered
copper
emerging
frontrunner.
Nanoengineered
copper’s
unique
properties-
its
catalytic
capabilities,
biocompatibility,
potential
surface
modification-
offer
unprecedented
opportunities
revolutionize
breast
care.
These
nanoparticles
not
only
enable
precise
targeting
cells
but
also
improve
diagnostic
accuracy
through
advanced
imaging
techniques.
Furthermore,
their
application
photothermal
photodynamic
therapies
provides
dual
approach
destroying
while
minimizing
harm
healthy
tissues.
With
ability
modulate
tumor
microenvironment
act
platform
combination
therapies,
holds
immense
promise
both
early
detection
treatment.
This
article
explores
wide-ranging
applications
copper,
from
innovations
therapeutic
breakthroughs,
underscoring
redefine
management
patient
outcomes.
Nanoscale,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
Biological
barriers
significantly
impede
the
delivery
of
nanotherapeutics
to
diseased
tissues,
diminishing
therapeutic
efficacy
across
pathologies
such
as
cancer
and
inflammatory
disorders.
Although
conventional
strategies
integrate
multifunctional
designs
molecular
components
into
nanomaterials
(NMs),
many
approaches
remain
insufficient
overcome
these
barriers.
Key
challenges,
including
inadequate
drug
accumulation
at
target
sites
nonspecific
biodistribution,
persist
in
nanotherapeutic
development.
NMs,
which
harness
ability
precisely
modulate
spatiotemporally
control
release
kinetics,
represent
a
transformative
platform
for
targeted
therapy.
In
this
review,
we
highlight
biological
obstacles
limiting
effective
treatment
evaluate
how
stimuli-responsive
NMs
address
constraints.
By
leveraging
exogenous
endogenous
stimuli,
improve
specificity,
reduce
off-target
effects,
amplify
activity
within
pathological
microenvironments.
We
systematically
analyze
rational
design
synthesis
driven
by
advances
oncology,
biomaterials
science,
nanoscale
engineering.
Furthermore,
NM
classes-including
polymeric,
lipid-based,
inorganic,
hybrid
systems
explore
functionalization
using
targeting
ligands,
antibodies,
biomimetic
coatings.
Diverse
are
evaluated,
small-molecule
prodrug
activation,
peptide-
protein-based
targeting,
nucleic
acid
payloads,
engineered
cell-mediated
transport.
Despite
promise
challenges
biocompatibility,
scalable
fabrication,
clinical
translation
must
be
addressed.
elucidating
structure-function
relationships
refining
stimulus-triggered
mechanisms,
pave
way
precision
oncology
strategies,
enabling
patient-specific
therapies
with
enhanced
safety.
This
interdisciplinary
insights
aims
catalyze
innovation
next-generation
nanomedicine
treatment.
Journal of Materials Chemistry B,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
Corneal
stromal
defects
cause
global
blindness
and
entail
unmet
solutions
beyond
transplants.
This
review
highlights
scaffolds,
biomaterials,
signaling
cues
in
corneal
stroma
engineering
to
advance
next-generation
vision
therapies.
