Annals of 3D Printed Medicine,
Journal Year:
2024,
Volume and Issue:
15, P. 100159 - 100159
Published: June 22, 2024
Three-dimensional
(3D)
bioprinting
technology
allows
the
production
of
porous
structures
with
complex
and
varied
geometries,
which
facilitates
development
equally
dispersed
cells
orderly
release
signal
components.
This
is
in
contrast
to
traditional
methods
used
produce
tissue
scaffolding.
To
date,
3D
has
employed
a
range
cell-laden
materials,
including
organic
synthetic
polymers,
construct
scaffolding
systems
manufacture
extracellular
matrix
(ECM).
Still,
there
are
several
challenges
meeting
technical
issues
bio-ink
formulations,
such
as
printability
bio-inks,
customization
mechanical
biological
properties
bio-implants,
guidance
cell
activities
biomaterials,
etc.
The
main
objective
this
article
discuss
various
strategies
for
preparing
bio-inks
mimic
native
tissue's
environment.
A
discussion
also
been
conducted
about
process
parameters
formulations
printing,
structure
requirements,
fabrication
durable
bio-scaffolds.
present
study
reviews
3D-printing
techniques.
Conclusively,
potential
paths
smart
bioink/scaffolds
have
outlined
regeneration.
Nanomaterials,
Journal Year:
2025,
Volume and Issue:
15(5), P. 356 - 356
Published: Feb. 25, 2025
Cellulose
nanofibers
(CNFs),
cellulose
nanomaterials
(CNMs),
and
cellulose-based
composites
represent
a
convergence
of
material
science,
sustainability,
advanced
engineering,
paving
the
way
for
innovative
eco-friendly
materials.
This
paper
presents
comprehensive
review
these
materials,
encompassing
their
extraction,
preparation
methods,
properties,
applications,
future
directions.
The
manufacturing
CNFs
CNMs
leverages
diverse
techniques-chemical,
mechanical,
enzymatic-with
each
offering
distinct
advantages
in
tailoring
characteristics
to
meet
specific
needs.
Strategies
functionalization
surface
modification
are
detailed,
highlighting
role
enhancing
properties
while
addressing
challenges
scaling
production
industrial
levels.
structural,
thermal,
optical,
electrical,
biocompatibility
CNFs,
CNMs,
explored,
underscoring
versatility
applications
across
various
industries.
Cellulose-based
composites,
particular,
demonstrate
exceptional
tunable
uses,
although
achieving
uniform
dispersion
remains
key
technical
hurdle.
These
materials
have
packaging,
automotive,
aerospace,
biomedical
devices,
energy
storage,
environmental
remediation.
Emerging
research
trends
emphasize
integration
with
technologies,
promoting
sustainable
practices
life
cycle
considerations
advancing
commercialization
potential.
rapidly
evolving
field
holds
immense
promise
global
by
creating
high-performance,
is
crucial
understanding
nanofibers,
nanomaterials,
providing
valuable
insights
that
will
drive
development
sustainable,
high-performance
wide
range
ultimately
challenges.
Gels,
Journal Year:
2023,
Volume and Issue:
9(5), P. 416 - 416
Published: May 16, 2023
Water
pollution
is
a
significant
environmental
issue
that
has
emerged
because
of
industrial
and
economic
growth.
Human
activities
such
as
industrial,
agricultural,
technological
practices
have
increased
the
levels
pollutants
in
environment,
causing
harm
to
both
environment
public
health.
Dyes
heavy
metals
are
major
contributors
water
pollution.
Organic
dyes
concern
their
stability
potential
absorb
sunlight,
increasing
temperature
disrupting
ecological
balance.
The
presence
production
textile
adds
toxicity
wastewater.
Heavy
global
can
human
health
mainly
caused
by
urbanization
industrialization.
To
address
this
issue,
researchers
focused
on
developing
effective
treatment
procedures,
including
adsorption,
precipitation,
filtration.
Among
these
methods,
adsorption
simple,
efficient,
cheap
method
for
removing
organic
from
water.
Aerogels
shown
promising
adsorbent
material
low
density,
high
porosity,
surface
area,
thermal
electrical
conductivity,
ability
respond
external
stimuli.
Biomaterials
cellulose,
starch,
chitosan,
chitin,
carrageenan,
graphene
been
extensively
studied
sustainable
aerogels
treatment.
Cellulose,
which
abundant
nature,
received
attention
recent
years.
This
review
highlights
cellulose-based
efficient
during
process.
