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.
ECS Journal of Solid State Science and Technology,
Journal Year:
2022,
Volume and Issue:
11(3), P. 033012 - 033012
Published: March 1, 2022
The
advancement
of
new
2D-TMDC
material
semiconductors
remains
a
prominent
research
area
as
the
number
scientific
applications
grows.
One
Of
those
materials,
“molybdenum
disulfide,”
has
newly
investigated
to
graphene
&
Si
alternative.
Single-layer
molybdenum
disulfide
(SLMoS
2
)
is
used
substitute
for
other
semiconductor
appliances
with
high
capability
practices
in
nano-electronic,
energy-storing,
photocatalysts,
optical
sensors,
biosensors
Electro-Chemical
biosensors.
It’s
working
even
widespread
variety
energy-related
applications,
including
batteries,
solar
cells,
microwaves,
Terahertz.
Furthermore,
future
hopeful
nano-scale
fields,
having
additional
opportunities
spintronics
magneto-resistance.Many
papers
have
published
on
Evolution
Application
MoS
materials
but
here
paper,
will
give
complete
depth
comprehensive
examination
analysis
evolution
various
2D
starting
their
state
requirement,
formation,
properties,
challenges
along
comparison
simulation
results.
Biosensors,
Journal Year:
2023,
Volume and Issue:
13(4), P. 465 - 465
Published: April 7, 2023
Surface
plasmon
resonance
(SPR)
comprises
several
surface-sensitive
techniques
that
enable
the
trace
and
ultra-trace
detection
of
various
analytes
through
affinity
pairing.
Although
enabling
label-free,
sensitive
real-time
monitoring,
issues
remain
to
be
addressed,
such
as
poor
stability,
non-specific
adsorption
loss
operational
activity
biomolecules.
In
this
review,
progress
over
sensor
modification,
immobilization
novel
2D
nanomaterials,
gold
nanostructures
magnetic
nanoparticles
for
signal
amplification
is
discussed.
The
advantages
disadvantages
each
design
strategy
will
provided
together
with
some
recent
achievements.
Catalysts,
Journal Year:
2023,
Volume and Issue:
13(4), P. 716 - 716
Published: April 10, 2023
Photocatalytic
hydrogen
production
is
a
green,
cost-effective,
simple,
and
pollution-free
technology
for
the
supply
of
clean
energy,
which
plays
an
important
role
in
alleviating
fossil
fuel
crisis
caused
by
exponentially
grown
energy
consumption.
Therefore,
designing
highly
visible-light-active
novel
photocatalyst
materials
photocatalytic
promising
task.
The
efficiency
can
be
improved
using
noble
metals,
are
useful
effective
transfer
charge
carriers.
This
study
highlights
synergistic
effect
co-catalyst
Ag
on
MoS2
during
investigation
production.
hydrothermal
method
was
used
preparation
Ag-MoS2
composite,
their
structural
morphological
characterizations
were
carried
out
different
physiochemical
characterization
techniques.
composite
shows
enhanced
visible
light
absorption
capacity
rate,
as
compared
to
that
pure
MoS2,
proves
nanoparticles
(NPs)
act
efficient
with
rate
Along
this,
possible
working
mechanism
proposed
visible-light-driven
Ag@MoS2
composite.
Chemical Engineering Journal,
Journal Year:
2023,
Volume and Issue:
480, P. 147963 - 147963
Published: Dec. 12, 2023
Energy
consumption
and
structure
have
changed
in
the
new
era
along
with
growth
of
Internet
Things
(IoT)
artificial
intelligence,
power
sources
for
billions
dispersed
gadgets
sensors
sparked
attention
globally
to
protect
environment.
Due
rising
usage
non-renewable
energy
resulting
environmental
damage,
researchers
are
investigating
alternative
systems
that
can
harness
from
Therefore,
self-sufficient
small-scale
electronic
will
be
possible
through
use
underutilised
natural
waste
collected
nanogenerators
(NGs).
The
features
materials
used
a
significant
impact
on
how
well
NGs
work.
In
this
regard
Molybdenum
disulfide
(MoS2),
2D
material,
is
one
compounds
discussed
vastly
nowadays
due
its
exceptional
characteristics
made
it
useful
variety
applications.
Many
research
papers
advancement
implementation
MoS2
been
published,
but
article
give
an
in-depth
overview.
It
offers
introduction
interpretation
main
properties
nanomaterials,
starting
their
current
state,
properties,
various
synthesis
processes.
Later,
review
concentrates
applications
energy-harvesting
capabilities
gives
comprehensive
study
piezoelectric,
triboelectric
thermometrical
based
nanocomposite
materials.
Microsystems & Nanoengineering,
Journal Year:
2023,
Volume and Issue:
9(1)
Published: Oct. 5, 2023
Abstract
With
the
annual
increases
in
morbidity
and
mortality
rates
of
tumors,
use
biomarkers
for
early
diagnosis
real-time
monitoring
tumor
cells
is
great
importance.
Biomarkers
used
cell
detection
body
fluids
include
circulating
cells,
nucleic
acids,
protein
markers,
extracellular
vesicles.
Among
them,
DNA,
exosomes
have
high
potential
prediction,
diagnosis,
prognosis
diseases
due
to
large
amount
valuable
information
on
characteristics
evolution;
addition,
situ
telomerase
miRNA
living
has
been
topic
extensive
research
understand
development
real
time.
Various
techniques,
such
as
enzyme-linked
immunosorbent
assays,
immunoblotting,
mass
spectrometry,
widely
these
markers.
markers
based
electrochemical
biosensors
fluorescence
signal
analysis
highly
preferred
because
its
sensitivity,
rapid
portable
operation.
Herein,
we
summarize
recent
progress
using
biosensors,
outline
current
status
discuss
technical
challenges
their
practical
clinical
application
provide
a
reference
new
marker
methods.
Materials Advances,
Journal Year:
2024,
Volume and Issue:
5(10), P. 4091 - 4111
Published: Jan. 1, 2024
This
comprehensive
review
paper
provides
an
insightful
exploration
of
the
burgeoning
field
2D
nanostructures
and
their
development
as
telemedicine
platforms
for
futuristic
smart
healthcare
systems.
