Smart Materials in Manufacturing,
Год журнала:
2024,
Номер
2, С. 100053 - 100053
Опубликована: Янв. 1, 2024
Elastomer/carbon
nanotube
(CNT)
nanocomposites
play
a
pivotal
role
in
the
evolution
of
flexible
electronics,
aerospace
and
automotive
components,
biomedical
devices
smart
materials.
This
article
explores
recent
advancements
challenges
elastomer/CNT
nanocomposites,
with
focus
on
mechanochemical
treatment
dispersing
multiwalled
CNTs
(MWCNTs)
single-walled
(SWCNTs).
The
review
starts
brief
overview
structure,
synthesis
purification
methods
CNTs,
providing
essential
background
for
new
researchers
to
field.
paper
various
nanocomposite
preparation
methods,
including
solution
mixing,
melt
compounding,
situ-polymerisation
latex
highlighting
their
impact
dispersion
elastomers
as
well
limitations.
Special
attention
is
given
mechanochemistry,
particularly
ball
milling,
key
technique
enhancing
within
elastomer
matrix.
relevant
reinforcement
mechanisms
are
also
discussed,
focusing
Halpin-Tsai
Einstein-Smallwood-Guth
models,
Payne
Mullins
effects.
Key
application
areas
demonstrating
versatility
significance
nanocomposites.
identifies
critical
field,
need
uniform
matrix,
improvement
interfacial
bonding
between
elastomer,
necessity
balance
these
technological
cost-effectiveness
sustainability
considerations.
It
highlights
continued
research
development
fully
harness
potential
Conclusively,
poised
shape
future
while
facing
that
necessitate
innovative
solutions.
The Chemical Record,
Год журнала:
2023,
Номер
23(6)
Опубликована: Янв. 12, 2023
Abstract
As
a
porous
and
network
materials
consisting
of
metals
organic
ligands,
metal‐organic
frameworks
(MOFs)
have
become
one
excellent
crystalline
play
an
important
role
in
the
era
about
science.
Plasma,
as
useful
tool
for
stimulating
efficient
reactions
under
many
conditions,
plasma‐assisted
technology
gets
more
attractions
endows
MOFs
properties.
Based
on
its
feature,
research
modifications
functionalities
been
developing
certain
extent.
This
review
contains
description
methods
modification
synthesis
MOFs,
with
specifically
focusing
potential
MOFs.
The
different
applications
were
also
presented.
Cogent Engineering,
Год журнала:
2023,
Номер
10(1)
Опубликована: Март 1, 2023
We
report
on
several
state
of
the
art
thin
films
coating
technologies
including
physical
vapor
deposition
(PVD)
and
solution
process
techniques.
Such
techniques
have
their
own
significance
to
develop
energy
efficiency
devices.
Choosing
right
technique
has
become
very
critical
in
recent
days
as
scaling
varies
significantly
with
technology.
Thus,
it
becomes
obvious
pick-up
procedure
according
needs
where
substrate
size,
film
thickness,
required
surface
roughness
are
critically
involved.
Among
all
techniques,
PVD
offers
various
advantages,
which
include
full
control
over
growth,
pristine
quality,
large-scale
fabrication,
stacking
films,
co-deposition
flexibility,
controlling
temperature.
In
addition,
such
can
be
adapted
small-scale
research
based
labs
capping
terms
budget.
processes
also
result
pin-hole
free,
homogeneous
continuous
highly
desirable
parameters
for
many
related
applications.
Solution
dip,
spin,
blade,
roll
discussed
provide
an
overall
view.
This
aims
give
in-depth
cross
sectional
review
considering
both
positive
negative
sides.
growth
efficient
pattering
required.
Hence,
this
work,
we
captured
properties
crucial
end
up
different
morphologies.
The
goal
is
compare
a
key
parameter
fine
formation
films.
convinced
that
our
will
show
substantial
importance
wider
group
materials
scientists,
chemists,
physicists,
photovoltaic
community
pick
best-suited
vehicle
purposes.
Catalysts,
Год журнала:
2024,
Номер
14(6), С. 388 - 388
Опубликована: Июнь 17, 2024
Transition
metal
dichalcogenides
(TMDCs),
represented
by
MX2
(where
M
=
Mo,
W
and
X
S,
Se,
Te),
more
recently,
their
moiré
superlattices
(i.e.,
formed
superimposing
layers
of
TMDCs
with
different
rotation
angles)
have
attracted
considerable
interest
due
to
excellent
physical
properties
unique
nanoscale
functionalities.
Compared
graphene,
the
literature
indicates
that
offer
a
competitive
advantage
in
optoelectronic
technologies,
primarily
owing
compositionally
controlled
non-zero
bandgap.
These
two-dimensional
(2D)
nanostructured
single
or
multiple
exhibit
remarkable
differ
from
bulk
counterparts.
Moreover,
stacking
TMDC
monolayers
also
forms
heterostructures
introduces
quantum
effects
extraordinary
electronic
properties,
which
is
particularly
promising
for
next-generation
devices
photo(electro)catalytic
applications.
Therefore,
this
review,
we
highlight
new
possibilities
formation
2D/2D
MX2-based
materials
patterns
discuss
main
critical
challenges
related
synthesis
large-scale
applications
layered
composites
spur
significant
advances
emerging
Smart Materials in Manufacturing,
Год журнала:
2024,
Номер
2, С. 100053 - 100053
Опубликована: Янв. 1, 2024
Elastomer/carbon
nanotube
(CNT)
nanocomposites
play
a
pivotal
role
in
the
evolution
of
flexible
electronics,
aerospace
and
automotive
components,
biomedical
devices
smart
materials.
This
article
explores
recent
advancements
challenges
elastomer/CNT
nanocomposites,
with
focus
on
mechanochemical
treatment
dispersing
multiwalled
CNTs
(MWCNTs)
single-walled
(SWCNTs).
The
review
starts
brief
overview
structure,
synthesis
purification
methods
CNTs,
providing
essential
background
for
new
researchers
to
field.
paper
various
nanocomposite
preparation
methods,
including
solution
mixing,
melt
compounding,
situ-polymerisation
latex
highlighting
their
impact
dispersion
elastomers
as
well
limitations.
Special
attention
is
given
mechanochemistry,
particularly
ball
milling,
key
technique
enhancing
within
elastomer
matrix.
relevant
reinforcement
mechanisms
are
also
discussed,
focusing
Halpin-Tsai
Einstein-Smallwood-Guth
models,
Payne
Mullins
effects.
Key
application
areas
demonstrating
versatility
significance
nanocomposites.
identifies
critical
field,
need
uniform
matrix,
improvement
interfacial
bonding
between
elastomer,
necessity
balance
these
technological
cost-effectiveness
sustainability
considerations.
It
highlights
continued
research
development
fully
harness
potential
Conclusively,
poised
shape
future
while
facing
that
necessitate
innovative
solutions.
