Advances in Polymer Technology,
Journal Year:
2024,
Volume and Issue:
2024(1)
Published: Jan. 1, 2024
Currently,
the
world
is
undergoing
fourth
industrial
revolution,
also
referred
to
as
Industry
4.0,
which
characterised
by
a
set
of
new
technological
advances
in
and
production
sectors.
Additive
manufacturing
(AM)
considered
an
essential
factor
this
era
because
its
ability
process
wide
spectra
materials,
produce
customised
products,
promote
sustainability
develop
intricate
components
are
unachievable
using
conventional
techniques.
The
field
AM
rapidly
evolving
has
seen
unprecedented
uptake
many
industries.
Different
types
technologies
have
been
developed
over
last
three
decades
different
such
polymers,
composites,
metals,
ceramics
alloys.
Both
industry
academia
made
considerable
effort
investigate
use
print
polymers
possibility
reach
markets.
This
comprehensive
review
focuses
on
polymer
laser
sintering
(PLS)
fused
deposition
modelling
(FDM),
most
commonly
employed
methods
for
polymers.
outlines
processes,
parameters,
available
commercial
polymeric
benefits,
challenges,
applications
two
technologies.
PLS
FDM
multifactorial
processes
that
final
whose
quality
subject
parameters.
review,
therefore,
delves
into
parameters
their
impacts.
article
lists
each
methods,
assist
researchers
industries
select
suitable
materials
based
processability
characteristics.
A
detailed
discussion
outlined
review.
study
provides
detail
benefits
challenges
FDM.
Last,
future
works
South African Journal of Chemical Engineering,
Journal Year:
2024,
Volume and Issue:
48, P. 214 - 236
Published: Feb. 10, 2024
As
a
result
of
rapid
urbanization
and
the
luxurious
lifestyle
overgrowing
population
this
planet,
currently,
consumers
are
tremendously
dependent
upon
various
types
industrial
productions
to
maintain
their
daily
life
demands.
Therefore
hasty
fluctuating
technologies
bulky
production
create
colossal
amount
wastewater
every
moment
which
is
usually
loaded
with
hazardous
toxicants
that
could
not
only
damage
ecology
but
also
hamper
public
health
safety
very
harshly.
Thus,
sustainable
eco-friendly
cost-effective
technique
crucial
need
for
effective
removal
these
from
real-time
protect
environmental
pollution.
Whereas
continuous
mode
adsorption
by
fixed
bed
column
has
widely
been
considered
as
most
simple,
cost-effective,
ecofriendly
technique.
Lately,
activated
chitosan-modified
natural
clay
based
nanocomposites
have
frequently
developed
due
greater
availability,
easiness
fabrication,
effectiveness,
efficiency
biodegradability
multifunctional
bionanocomposites/adsorbents.
Additionally,
specific
new
class
biopolymeric
exhibits
sensational
knock
regarding
performance
aqueous
solutions
around∼99%.
However,
review
article
recapitulates
noteworthy
information
about
potential
fabrication
routes
characterization
techniques
chitosan-clay
bionanocomposites.
Also
against
immerging
bulk
scale
significant
accepted
method
namely
adsorption.
A
squat
overview
chemical
activation
waste
biomass
shell-derived
chitosan
modification
clay,
along
interaction
during
compounding.
The
possible
mechanism
elimination
contaminants
including
all
chemisorption,
multi/monolayer
physisorption
interparticular
diffusion
mathematical
modellings
presented.
Future
research
route
suggested
technological
challenges
commonly
come
across
in
enactment.
Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials,
Journal Year:
2024,
Volume and Issue:
151, P. 106391 - 106391
Pharmaceutics,
Journal Year:
2025,
Volume and Issue:
17(3), P. 390 - 390
Published: March 19, 2025
Three-dimensional
printing
technology
is
transforming
pharmaceutical
manufacturing
by
shifting
from
conventional
mass
production
to
additive
manufacturing,
with
a
strong
emphasis
on
personalized
medicine.
The
integration
of
bioinks
and
AI-driven
optimization
further
enhancing
this
innovation,
enabling
drug
precise
dosages,
tailored
drug-release
profiles,
unique
multi-drug
combinations
that
respond
individual
patient
needs.
This
advancement
significantly
impacting
healthcare
accelerating
development,
encouraging
innovative
designs,
treatment
efficacy.
Traditional
follows
one-size-fits-all
approach,
which
often
fails
meet
the
specific
requirements
patients
medical
conditions.
In
contrast,
3D
printing,
coupled
bioink
formulations,
allows
for
on-demand
production,
reducing
dependency
large-scale
storage.
AI-powered
design
process
refine
dosage
forms,
printability,
release
mechanisms,
ensuring
precision
efficiency
in
manufacturing.
These
advancements
have
potential
lower
overall
costs
while
improving
adherence
medication
regimens.
review
explores
potential,
challenges,
environmental
benefits
positioning
it
as
key
driver
next-generation
Gels,
Journal Year:
2025,
Volume and Issue:
11(3), P. 187 - 187
Published: March 8, 2025
Over
the
past
years,
numerous
novel
dosage
forms,
including
gels,
have
been
investigated
for
paediatric
treatment
due
to
need
provide
flexible
dose
adjustment
possibilities,
as
well
a
patient-friendly
approach
drug
delivery.
Simultaneously,
3D
printing
technology
is
continuously
advancing
and
gaining
interest
tool
personalised
formulation
development.
Multiple
additive
manufacturing
methods,
semi-solid
extrusion,
especially
used
in
gel
printing,
flexibility
regarding
of
active
ingredients
design
soft
forms.
techniques
can
be
considered
possible
answer
demand
medicines
tailored
small
patients’
needs.
This
review
intends
present
an
overview
current
comparing
gel-like
non-gel-formulated
forms
crucial
aspects
developing
those
cutting-edge
by
printing.
paper
discusses
formulations
such
chewing
gums,
which
still
require
extensive
evaluation,
explores
question
three-dimensional
process.
Furthermore,
it
highlights
gel-based
gummies
hydrogels,
fabrication
has
intensively
studied
previous
years.
However,
research
needs
advance.
Agriculture,
Journal Year:
2024,
Volume and Issue:
14(8), P. 1207 - 1207
Published: July 23, 2024
Additive
manufacturing
(AM),
also
known
as
three-dimensional
(3D)
printing,
is
a
technology
that
constructs
objects
by
sequentially
adding
material
layer
layer.
AM
encompasses
range
of
different
techniques
capable
working
with
very
materials
from
metals
and
alloys
to
polymers
composites.
As
an
advanced
fabrication
technology,
characterized
strong
design
flexibility,
the
ability
create
intricate
structures,
cost-effectiveness
when
compared
conventional
methods.
widely
employed
in
various
sectors
such
aerospace,
healthcare,
industrial
manufacturing,
its
application
increasingly
expanding
into
agricultural
manufacturing.
This
study
provides
comprehensive
review
analysis
current
status
applied
five
main
aspects
equipment
parts,
use
sensors,
role
utilization
waste,
field
plant
growth
mechanisms
phytoremediation
tissues.
The
existing
problems
future
development
trends
are
included
provide
implications
for
researchers.
adoption
agriculture
offers
significant
advantages,
including
enhanced
production
efficiency,
cost
reduction,
innovation
facilitation,
environmental
protection.
From
initial
prototyping
custom
today,
more
flexible,
efficient
sustainable
solutions
Especially
fields
machinery,
planting
facilities
biomaterials,
has
shown
great
potential
advantages.
With
continuous
advancement
reduction
costs,
will
become
popular
play
vital
In
future,
we
can
foresee
realize
products
higher
precision,
complex
structure
functions,
providing
intelligent
personalized
production.
such,
it
emerging
critical
driving
force
precision
agriculture.
Therapeutic Delivery,
Journal Year:
2025,
Volume and Issue:
unknown, P. 1 - 10
Published: March 30, 2025
Background
This
study
investigated
the
in
vitro
dissolution
and
vivo
absorption
of
rifampicin
(RIF)-containing
3D-printed
tablets
using
Selective
Laser
Sintering
(SLS)
technology.
