Energies,
Journal Year:
2021,
Volume and Issue:
14(15), P. 4586 - 4586
Published: July 29, 2021
Molybdenum
disulfide
(MoS2)
is
a
promising
transition
metal
dichalcogenide
(TMD)
that
has
exceptional
electronic,
magnetic,
optical,
and
mechanical
properties.
It
can
be
semiconducting,
superconducting,
or
an
insulator
according
to
its
polymorph.
Its
bandgap
structure
changes
from
indirect
direct
when
moving
towards
nanostructures,
which
opens
door
engineering
for
MoS2.
supercapacitive
catalytic
activity
was
recently
noticed
studied,
in
order
include
this
material
wide
range
of
energy
applications.
In
work,
we
present
MoS2
as
future
storage
generation
applications,
especially
solar
cells,
are
cornerstone
clean
abundant
source
energy.
role
water
splitting
reactions
utilized
(hydrogen
evolution)
treatment
at
the
same
time.
Although
seems
breakthrough
field,
it
still
faces
some
challenges
regarding
stability,
production
scalability,
manufacturing
costs.
Journal of Molecular Liquids,
Journal Year:
2024,
Volume and Issue:
407, P. 125261 - 125261
Published: June 12, 2024
Nanofluids
are
a
unique
class
of
fluids
generally
prepared
by
adding
nanosized
particles
to
different
types
base
fluids,
such
as
water,
oil,
etc.
When
nanoparticles
added
the
their
thermophysical
parameters
like
viscosity,
heat
transfer
characteristics,
and
thermal
conductivity
improved
provide
good
results.
For
this
reason,
demand
for
enriched
with
has
considerably
increased
in
manufacturing
sector.
This
comprehensive
state-of-the-art
review
covers
nanolubricants'
role
friction
reduction,
wear
resistance,
machining
efficiency
applications.
Initially,
lubricants
properties
revealed
introduction
section.
Then,
nanoparticles,
basic
structure,
applications
tribology
portrayed
sections.
In
addition,
it
provides
analysis
difficulties
related
nanofluids
utilization
tribology.
Ultimately,
evaluation
final
comments
on
latest
advancements
both
academic
industrial
sectors,
well
strategy
future
expansion.
The
results
indicated
that
loaded
had
beneficial
effect
lowering
temperature
at
primary
contact
zone.
Materials & Design,
Journal Year:
2024,
Volume and Issue:
244, P. 113217 - 113217
Published: July 30, 2024
Metamaterials,
an
artificial
electromagnetic
(EM)
material,
have
exhibited
unique
characteristics,
enabling
innovations
in
terahertz
(THz)
wavefront
shaping,
polarization
modulation,
surface
wave
manipulation,
and
spectrum
modulation.
In
this
review,
we
focus
on
the
advancements
THz
metamaterials
for
emphasizing
their
structural
design,
special
materials,
applications.
The
review
discusses
various
designs,
including
metal-dielectric
composite
structures,
all-metal
all-dielectric
each
offering
distinct
advantages
Key
materials
such
as
graphene,
vanadium
dioxide
(VO2),
molybdenum
disulfide
(MoS2),
flexible
are
highlighted
significant
contributions
to
enhancing
performance
functionality
of
metamaterials.
applications
EM
stealth
sensing
thoroughly
introduced,
with
a
particular
biosensing,
pesticide
detection,
other
emphasizes
potential
developing
highly
sensitive
selective
sensors,
well
efficient
absorbers
filters.
Future
perspectives
include
continuous
development
novel
advanced
fabrication
technologies,
integration
multifunctional
capabilities
further
expand
efficiency
These
expected
drive
progress
technology,
impacting
fields
medical
diagnostics,
environmental
monitoring,
food
safety,
wireless
communication,
security.
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 3, 2025
Abstract
The
emergence
of
innovative
2D
materials
represents
a
significant
evolution
in
science,
heralding
new
opportunities
for
the
advancement
information
technologies
era
succeeding
Moore's
law.
These
span
various
categories,
including
semi‐metallic,
semiconductor,
and
insulating
types,
showcasing
their
versatility.
exceptional
characteristics
these
atomically
thin
planar
herald
miniaturization
devices.
Integrating
into
field‐effect
transistors
(FETs)
with
sub‐nanometer
scale
gate
architectures
demonstrates
typical
switching
behaviors,
confirming
applicability
integrated
circuits.
Concurrently,
development
wafer‐level
silicon‐compatible
manufacturing
techniques
specifically
designed
devices
underscores
promise
nanoelectronics
nanophotonics.
Particularly,
Molybdenum
disulfide
(MoS
2
)
stands
out
its
direct
bandgaps
bound
excitons,
offering
profound
implications
advancing
This
review
investigates
intrinsic
structure
properties
MoS
,
evaluates
methods
wafer‐scale
synthesis,
examines
critical
applications
nanoelectronics,
such
as
FETs,
photodetectors,
memristors,
alongside
nanophotonics
like
nano‐scale
laser
sources,
exciton‐plasmon
interaction
advanced
sensing
applications,
photoluminescence
manipulation.
Additionally,
this
addresses
current
challenges
future
prospects
developing
‐based
next‐generation
nanoelectronic
nanophotonic
Energies,
Journal Year:
2021,
Volume and Issue:
14(15), P. 4586 - 4586
Published: July 29, 2021
Molybdenum
disulfide
(MoS2)
is
a
promising
transition
metal
dichalcogenide
(TMD)
that
has
exceptional
electronic,
magnetic,
optical,
and
mechanical
properties.
It
can
be
semiconducting,
superconducting,
or
an
insulator
according
to
its
polymorph.
Its
bandgap
structure
changes
from
indirect
direct
when
moving
towards
nanostructures,
which
opens
door
engineering
for
MoS2.
supercapacitive
catalytic
activity
was
recently
noticed
studied,
in
order
include
this
material
wide
range
of
energy
applications.
In
work,
we
present
MoS2
as
future
storage
generation
applications,
especially
solar
cells,
are
cornerstone
clean
abundant
source
energy.
role
water
splitting
reactions
utilized
(hydrogen
evolution)
treatment
at
the
same
time.
Although
seems
breakthrough
field,
it
still
faces
some
challenges
regarding
stability,
production
scalability,
manufacturing
costs.
