Advanced Engineering Materials,
Journal Year:
2024,
Volume and Issue:
26(21)
Published: Oct. 13, 2024
Advancements
in
polymers
have
made
significant
contribution
diverse
application‐oriented
fields.
The
multidisciplinary
application
of
generates
a
range
strategies,
which
is
applicable
wide
biomedicines.
Polymeric
compounds
such
as
hydrogels
been
explored
globally
potent
biomaterial
that
can
furnish
essential
attributes
due
to
their
three‐dimensional
(3D)
soft
and
highly
hydrophilic
polymeric
network.
These
used
extensively
various
applications
biocompatible,
biodegradable,
biosorption
nature.
However,
they
some
limitations,
owing
nature,
low
mechanical
properties,
unsatisfactory
degradation
profile.
Therefore,
there
need
develop
novel,
stronger,
more
durable
hybrid
with
enhanced
biocompatible
multifunctional
properties.
current
review
gives
broad
spectrum
its
importance
significance.
Further,
the
highlights
strategies
generation
reinforced
nanomaterials,
biomaterials,
nanobiocomposites
along
advantages
disadvantages.
also
features
these
field
biomedicines,
photocatalysis,
agriculture,
food
industry
over
last
5
years.
This
will
give
comprehensive
overview
researchers
working
development.
Gels,
Journal Year:
2023,
Volume and Issue:
9(3), P. 207 - 207
Published: March 9, 2023
Scientists
have
been
attempting
to
improve
the
properties
of
mesoporous
materials
and
expand
their
application
since
1990s,
combination
with
hydrogels,
macromolecular
biological
materials,
is
one
research
focuses
currently.
Uniform
structure,
high
specific
surface
area,
good
biocompatibility,
biodegradability
make
combined
use
more
suitable
for
sustained
release
loaded
drugs
than
single
hydrogels.
As
a
joint
result,
they
can
achieve
tumor
targeting,
environment
stimulation
responsiveness,
multiple
therapeutic
platforms
such
as
photothermal
therapy
photodynamic
therapy.
Due
conversion
ability,
significantly
antibacterial
ability
hydrogels
offer
novel
photocatalytic
mode.
In
bone
repair
systems,
remarkably
strengthen
mineralization
mechanical
aside
from
being
used
drug
carriers
load
various
bioactivators
promote
osteogenesis.
hemostasis,
greatly
elevate
water
absorption
rate
enhance
strength
blood
clot,
dramatically
shorten
bleeding
time.
wound
healing
tissue
regeneration,
incorporating
be
promising
enhancing
vessel
formation
cell
proliferation
this
paper,
we
introduce
classification
preparation
methods
material-loaded
composite
highlight
applications
in
delivery,
therapy,
treatment,
osteogenesis,
healing.
We
also
summarize
latest
progress
point
out
future
directions.
After
searching,
no
reporting
these
contents
was
found.
Pharmaceutics,
Journal Year:
2023,
Volume and Issue:
15(5), P. 1484 - 1484
Published: May 12, 2023
Slow-release
delivery
systems
are
needed
to
ensure
long-term
sustained
treatments
for
retinal
diseases
such
as
age-related
macular
degeneration
and
diabetic
retinopathy,
which
currently
treated
with
anti-angiogenic
agents
that
require
frequent
intraocular
injections.
These
can
cause
serious
co-morbidities
the
patients
far
from
providing
adequate
drug/protein
release
rates
required
pharmacokinetics
sustain
prolonged
efficacy.
This
review
focuses
on
use
of
hydrogels,
particularly
temperature-responsive
hydrogels
vehicles
intravitreal
injection
therapies,
their
advantages
disadvantages
administration,
current
advances
in
treat
diseases.
Materials Chemistry Frontiers,
Journal Year:
2023,
Volume and Issue:
7(23), P. 5989 - 6034
Published: Jan. 1, 2023
Programmable
3D
shape
morphing
of
stimuli-responsive
hydrogels
is
great
interest
for
the
fabrication
soft
actuators
and
robots.
The
corporation
hydrogel
matrices
functional
additives
discussed
in
this
review.
Advanced Engineering Materials,
Journal Year:
2024,
Volume and Issue:
26(21)
Published: Oct. 13, 2024
Advancements
in
polymers
have
made
significant
contribution
diverse
application‐oriented
fields.
The
multidisciplinary
application
of
generates
a
range
strategies,
which
is
applicable
wide
biomedicines.
Polymeric
compounds
such
as
hydrogels
been
explored
globally
potent
biomaterial
that
can
furnish
essential
attributes
due
to
their
three‐dimensional
(3D)
soft
and
highly
hydrophilic
polymeric
network.
These
used
extensively
various
applications
biocompatible,
biodegradable,
biosorption
nature.
However,
they
some
limitations,
owing
nature,
low
mechanical
properties,
unsatisfactory
degradation
profile.
Therefore,
there
need
develop
novel,
stronger,
more
durable
hybrid
with
enhanced
biocompatible
multifunctional
properties.
current
review
gives
broad
spectrum
its
importance
significance.
Further,
the
highlights
strategies
generation
reinforced
nanomaterials,
biomaterials,
nanobiocomposites
along
advantages
disadvantages.
also
features
these
field
biomedicines,
photocatalysis,
agriculture,
food
industry
over
last
5
years.
This
will
give
comprehensive
overview
researchers
working
development.
