Advances in Colloid and Interface Science,
Journal Year:
2024,
Volume and Issue:
332, P. 103251 - 103251
Published: July 20, 2024
In
the
domain
of
photopolymerization-based
additive
manufacturing
(3D
vat
printing),
ceramic
photopolymer
resins
represent
a
multifaceted
composite,
predominantly
comprising
oligomers,
fillers,
and
photoinitiators.
However,
synergy
between
fillers
polymer
matrix,
along
with
stabilization
homogenization
is
facilitated
by
specific
additives,
notably
surface-active
agents,
dispersants,
adhesion
promoters.
Although
these
additives
constitute
minor
fraction
in
terms
volume,
their
influence
on
final
properties
material
substantial.
Consequently,
meticulous
selection
integration
are
crucial,
subtly
guiding
performance
characteristics
resultant
matrix
composites
toward
enhancement.
This
review
delves
into
array
dispersants
coupling
agents
utilized
components.
It
elucidates
interaction
mechanisms
examines
how
interactions
affect
process.
Furthermore,
this
investigates
impact
various
rheological
behavior
slurries
subsequent
effects
post-manufacturing
stages,
such
as
debinding
sintering.
also
addresses
challenges
prospects
optimization
for
advanced
applications.
Small,
Journal Year:
2023,
Volume and Issue:
20(6)
Published: Sept. 29, 2023
Abstract
Nanoparticles
form
long‐range
micropatterns
via
self‐assembly
or
directed
with
superior
mechanical,
electrical,
optical,
magnetic,
chemical,
and
other
functional
properties
for
broad
applications,
such
as
structural
supports,
thermal
exchangers,
optoelectronics,
microelectronics,
robotics.
The
precisely
defined
particle
assembly
at
the
nanoscale
simultaneously
scalable
patterning
microscale
is
indispensable
enabling
functionality
improving
performance
of
devices.
This
article
provides
a
comprehensive
review
nanoparticle
formed
primarily
balance
forces
(e.g.,
van
der
Waals,
colloidal,
capillary,
convection,
chemical
forces)
nanoparticle‐template
interactions
physical
confinement,
functionalization,
additive
layer‐upon‐layer).
commences
general
overview
self‐assembly,
state‐of‐the‐art
literature
motivation.
It
subsequently
reviews
recent
progress
in
without
presence
surface
templates.
Manufacturing
techniques
template
fabrication
their
influence
on
efficiency
effectiveness
are
then
explored.
primary
focus
spatial
organization
orientational
preference
nanoparticles
non‐templated
pre‐templated
surfaces
controlled
manner.
Moreover,
discusses
applications
micropatterned
surfaces,
encompassing
various
fields.
Finally,
concludes
summary
manufacturing
methods,
limitations,
future
trends
assembly.
Advanced Membranes,
Journal Year:
2024,
Volume and Issue:
4, P. 100091 - 100091
Published: Jan. 1, 2024
Driven
by
the
diverse
functionalization
of
halloysite
nanotubes
(HNTs)
and
advanced
membrane
preparation
technologies,
a
tremendous
progress
in
HNTs-polymer
nanocomposite
membranes
has
been
made
during
last
dozen
years.
Yet
even
with
these
achievements,
an
elaborate
comprehensive
overview
on
rational
design
membranes,
their
various
application
areas
as
well
corresponding
performance
status
is
still
missing.
Herein,
we
provide
timeline
ongoing
research
then
outline
on:
(1)
versatile
methods
HNTs
for
state-of-the-art
membranes.
(2)
key
routes
to
prepare
influences
modified
structures
performances.
(3)
overall
inductive
performances
specific
applications
water
treatment,
gas
energy
conversion,
biomedicine.
We
envision
that
insightful
perspective
will
be
timely
presented
this
review
stimulate
innovation
developing
more
motivating
extending
applications.
Journal of Functional Biomaterials,
Journal Year:
2024,
Volume and Issue:
15(4), P. 82 - 82
Published: March 25, 2024
Three-dimensional
(3D)
bioprinting
is
a
fast
prototyping
fabrication
approach
that
allows
the
development
of
new
implants
for
tissue
restoration.
Although
various
materials
have
been
utilized
this
process,
they
lack
mechanical,
electrical,
chemical,
and
biological
properties.
To
overcome
those
limitations,
graphene-based
demonstrate
unique
mechanical
electrical
properties,
morphology,
impermeability,
making
them
excellent
candidates
3D
bioprinting.
This
review
summarizes
latest
developments
in
printing
their
application
engineering
regenerative
medicine.
Over
years,
different
approaches
materials,
such
as
graphene,
graphene
oxide
(GO),
reduced
GO
(rGO),
functional
(fGO).
process
involves
controlling
multiple
factors,
dispersion,
viscosity,
post-curing,
which
impact
properties
3D-printed
constructs.
end,
combined
with
demonstrated
prominent
regeneration
potential
bone,
neural,
cardiac,
skin
tissues.
Overall,
may
pave
way
strategies
translational
implications
orthopedics,
neurology,
cardiovascular
areas.
Burns & Trauma,
Journal Year:
2024,
Volume and Issue:
12
Published: Jan. 1, 2024
Abstract
Critical-sized
bone
defects
represent
a
significant
clinical
challenge
due
to
their
inability
undergo
spontaneous
regeneration,
necessitating
graft
interventions
for
effective
treatment.
The
development
of
tissue-engineered
scaffolds
and
regenerative
medicine
has
made
tissue
engineering
highly
viable
treatment
defects.
physical
biological
properties
nanocomposite
biomaterials,
which
have
optimized
structures
the
ability
simulate
microenvironment
bone,
are
promising
application
in
field
engineering.
These
biomaterials
offer
distinct
advantages
over
traditional
materials
by
facilitating
cellular
adhesion
proliferation,
maintaining
excellent
osteoconductivity
biocompatibility,
enabling
precise
control
degradation
rates,
enhancing
mechanical
properties.
Importantly,
they
can
natural
structure
tissue,
including
specific
microenvironment,
is
crucial
promoting
repair
regeneration
This
manuscript
provides
comprehensive
review
recent
research
developments
applications
structure-optimized
microenvironment-inspired
focuses
on
these
summarizing
latest
progress
highlighting
challenges
future
perspectives
field.
Through
this
analysis,
paper
aims
underscore
potential
engineering,
contributing
informed
design
strategic
planning
next-generation
medicine.
Advances in Colloid and Interface Science,
Journal Year:
2024,
Volume and Issue:
332, P. 103251 - 103251
Published: July 20, 2024
In
the
domain
of
photopolymerization-based
additive
manufacturing
(3D
vat
printing),
ceramic
photopolymer
resins
represent
a
multifaceted
composite,
predominantly
comprising
oligomers,
fillers,
and
photoinitiators.
However,
synergy
between
fillers
polymer
matrix,
along
with
stabilization
homogenization
is
facilitated
by
specific
additives,
notably
surface-active
agents,
dispersants,
adhesion
promoters.
Although
these
additives
constitute
minor
fraction
in
terms
volume,
their
influence
on
final
properties
material
substantial.
Consequently,
meticulous
selection
integration
are
crucial,
subtly
guiding
performance
characteristics
resultant
matrix
composites
toward
enhancement.
This
review
delves
into
array
dispersants
coupling
agents
utilized
components.
It
elucidates
interaction
mechanisms
examines
how
interactions
affect
process.
Furthermore,
this
investigates
impact
various
rheological
behavior
slurries
subsequent
effects
post-manufacturing
stages,
such
as
debinding
sintering.
also
addresses
challenges
prospects
optimization
for
advanced
applications.
