Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 27, 2024
Abstract
Since
the
advent
of
3D
printing
technology,
a
significant
effort
has
been
made
to
develop
new
printable
materials.
Despite
recent
progress
in
field
printing,
limited
availability
photoactive
resins
motivated
continuous
research
endeavors
novel
photoresins
with
multifunctional
capabilities.
Herein
biobased
photoresin
derived
is
reported
from
modified
olive
oil,
designed
for
high‐resolution
solvent‐free
4D
The
physicochemical
properties
printed
polymers
are
fine‐tuned
using
acrylic
acid
as
diluent
cum
comonomer.
mechanical
similar
various
soft
tissues,
such
ligaments,
articular
cartilage,
and
collagenous
bone,
showcasing
its
potential
tissue
engineering
applications.
While
excellent
temperature‐responsive
shape
memory
attributes
coupled
exceptional
antimicrobial
toward
gram‐negative
gram‐positive
bacteria
highlight
nature
polymers.
Moreover,
exhibited
outstanding
hemocompatibility
good
cytocompatibility
mouse
fibroblast
cells,
suggesting
their
In
sum,
newly
developed
resin
can
be
employed
minimize
environmental
impact
additive
manufacturing
while
being
competitive
existing
fossil‐based
photoresins,
thereby
meeting
growing
demand
advanced
superior
smart
biomedical
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
8(1)
Published: June 12, 2024
The
increasing
demand
for
dental
implants
and
the
necessity
to
develop
sustainable
biomaterials
have
increased
interest
in
additive
manufacturing
(AM)
of
implants.
implant
industry
has
traditionally
relied
on
materials
such
as
metals
alloys
their
mechanical
properties
biocompatibility.
However,
extraction
processing
these
pose
considerable
environmental
ethical
challenges.
This
review
explores
emerging
paradigm
shift
towards
substituting
traditional
raw
with
AM
also
briefs
about
recent
advancements
techniques
that
enable
fabrication
using
biomaterials.
Using
three
dimensional
(3D)
printing
technology
allows
precise
customization
while
minimizing
waste.
Additionally,
biodegradable
polymers
bio-ceramics
shown
promise
supporting
bone
regeneration
reducing
ecological
footprint
production.
Despite
numerous
challenges,
this
field
study
can
fundamentally
transform
dentistry
sector
by
impact
effects
related
processes
improving
availability
patients.
Although
preliminary
reported
studies
are
promising,
further
research
required
advance
progress
toward
clinical
applications
AM.
Polymers,
Journal Year:
2024,
Volume and Issue:
16(11), P. 1551 - 1551
Published: May 30, 2024
To
enhance
the
ecological
properties
of
polyvinyl
chloride
(PVC)
products,
fabrication
PVC-based
composites
using
biofillers
with
acceptable
performance
characteristics
could
be
considered.
In
this
work,
plant-filled
composite
materials
were
fabricated
and
their
optical,
structural,
thermal,
mechanical
properties,
depending
on
nature
filler,
studied.
Spruce
flour,
birch
rice
husk
used
as
fillers.
Optical
measurements
showed
selected
technological
parameters,
allowing
films
a
uniform
distribution
dispersed
plant
filler
in
polymer
matrix
to
obtained.
Using
fillers
PVC
leads
reduction
strength
characteristics;
for
instance,
tensile
changed
from
18.0
MPa
(for
pure
film)
~7
20
wt.%
fillers),
~5–6.2
40
fillers).
Thermal
investigations
that
samples
at
low
temperatures
without
changing
operating
characteristics.
Thus,
have
wide
temperature
range,
from—65
°C
150
°C.
TGA
analysis
has
demonstrated
affected
thermal
stability
by
increasing
decomposition
resistance.
The
ability
absorb
water
was
observed
during
investigation
absorption
samples.
And
highest
degree
(up
160
mg/g)
detected
sample
husk.
general,
based
can
an
equal
basis
unfilled
plastic
compounds
some
applications
such
construction
example,
design
tasks).
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 27, 2024
Abstract
Since
the
advent
of
3D
printing
technology,
a
significant
effort
has
been
made
to
develop
new
printable
materials.
Despite
recent
progress
in
field
printing,
limited
availability
photoactive
resins
motivated
continuous
research
endeavors
novel
photoresins
with
multifunctional
capabilities.
Herein
biobased
photoresin
derived
is
reported
from
modified
olive
oil,
designed
for
high‐resolution
solvent‐free
4D
The
physicochemical
properties
printed
polymers
are
fine‐tuned
using
acrylic
acid
as
diluent
cum
comonomer.
mechanical
similar
various
soft
tissues,
such
ligaments,
articular
cartilage,
and
collagenous
bone,
showcasing
its
potential
tissue
engineering
applications.
While
excellent
temperature‐responsive
shape
memory
attributes
coupled
exceptional
antimicrobial
toward
gram‐negative
gram‐positive
bacteria
highlight
nature
polymers.
Moreover,
exhibited
outstanding
hemocompatibility
good
cytocompatibility
mouse
fibroblast
cells,
suggesting
their
In
sum,
newly
developed
resin
can
be
employed
minimize
environmental
impact
additive
manufacturing
while
being
competitive
existing
fossil‐based
photoresins,
thereby
meeting
growing
demand
advanced
superior
smart
biomedical
