Journal of Materials Research and Technology,
Journal Year:
2024,
Volume and Issue:
32, P. 1630 - 1646
Published: Aug. 6, 2024
MoS2
is
a
substance,
highly
valued
for
its
two-dimensional
nanostructure
and
diverse
physical
chemical
properties.
This
review
examines
the
advancements
achieved
in
biomedical
applications
through
integration
of
molybdenum
disulfide
(MoS2),
state-of-the-art
area
3D
printing
technology.
It
initially
outlines
synthesis
routes
techniques
to
tailor
The
explores
how
properties
underpin
biological
significance,
thereby
facilitating
therapeutic,
tissue
engineering,
biosensing
applications.
Emphasis
placed
on
emerging
printing,
assessing
potential
when
combined
with
produce
customized
materials
purposes.
Strategies
create
foam
topologies
electrocatalytically
active
filaments
3D-printed
constructs
are
explained.
enhanced
mechanical
strength,
conductivity,
therapeutic
efficacy
observed
structures
foreshadow
new
developments
healthcare,
including
advent
biocompatible
implants
regenerative
medicine
engineering.
Further
results
show
innovations
have
been
made
areas
leveraging
printing.
These
insights,
grounded
scientific
research,
medical
practices,
technological
advancements,
position
as
flexible
innovative
material
across
various
sectors.