Chemical Engineering Journal Advances,
Journal Year:
2022,
Volume and Issue:
12, P. 100392 - 100392
Published: Sept. 6, 2022
Membranes
with
well-designed
pore
distribution
and
surface
properties
have
gained
considerable
attention
in
recent
years
due
to
their
promising
applications
the
field
of
aqueous
organic
solvent-based
separation.
Among
plethora
membrane
materials,
graphene
oxide
(GO)
is
one
most
materials
taking
account
its
excellent
chemical
resistance
cheap
scalable
synthesis
procedure.
Although
GO
has
been
widely
explored
for
various
liquid-based
since
discovery,
separation
media
using
membranes
started
receiving
years.
This
mini-review
briefly
presents
different
strategies
recently
implemented
tune
performance
GO-based
along
challenges
opportunities
navigate
future
studies
this
area.
Water,
Journal Year:
2020,
Volume and Issue:
12(2), P. 495 - 495
Published: Feb. 12, 2020
Water
is
an
essential
part
of
life
and
its
availability
important
for
all
living
creatures.
On
the
other
side,
world
suffering
from
a
major
problem
drinking
water.
There
are
several
gases,
microorganisms
toxins
(chemicals
heavy
metals)
added
into
water
during
rain,
flowing
water,
etc.
which
responsible
pollution.
This
review
article
describes
various
applications
nanomaterial
in
removing
different
types
impurities
polluted
kinds
nanomaterials,
carried
huge
potential
to
treat
(containing
metal
toxin
substance,
organic
inorganic
impurities)
very
effectively
due
their
unique
properties
like
greater
surface
area,
able
work
at
low
concentration,
The
nanostructured
catalytic
membranes,
nanosorbents
nanophotocatalyst
based
approaches
remove
pollutants
wastewater
eco-friendly
efficient,
but
they
require
more
energy,
investment
order
purify
wastewater.
many
challenges
issues
treatment.
Some
precautions
also
required
keep
away
ecological
health
issues.
New
modern
equipment
treatment
should
be
flexible,
cost
efficient
commercialization
purpose.
Science and Technology of Advanced Materials,
Journal Year:
2019,
Volume and Issue:
20(1), P. 465 - 496
Published: May 23, 2019
Atomic
layer
deposition
(ALD)
is
an
ultra-thin
film
technique
that
has
found
many
applications
owing
to
its
distinct
abilities.
They
include
uniform
of
conformal
films
with
controllable
thickness,
even
on
complex
three-dimensional
surfaces,
and
can
improve
the
efficiency
electronic
devices.
This
technology
attracted
significant
interest
both
for
fundamental
understanding
how
new
functional
materials
be
synthesized
by
ALD
numerous
practical
applications,
particularly
in
advanced
nanopatterning
microelectronics,
energy
storage
systems,
desalinations,
catalysis
medical
fields.
review
introduces
progress
made
ALD,
computational
experimental
methodologies,
provides
outlook
this
emerging
comparison
other
methods.
It
discusses
approaches
factors
affect
presents
simulation
methods,
such
as
molecular
dynamics
fluid
dynamics,
which
help
determine
predict
effective
ways
optimize
processes,
hence
enabling
reduction
cost,
waste
adverse
environmental
impacts.
Specific
examples
are
chosen
illustrate
processes
showed
a
considerable
impact
technologies.
Journal of Materials Chemistry B,
Journal Year:
2020,
Volume and Issue:
8(17), P. 3701 - 3732
Published: Jan. 1, 2020
Because
of
the
environmental
and
economic
casualties
biofouling
on
maritime
navigation,
modern
studies
have
been
devoted
toward
formulating
advanced
nanoscale
composites
in
controlled
development
effective
marine
antifouling
self-cleaning
surfaces.
Langmuir,
Journal Year:
2023,
Volume and Issue:
39(6), P. 2333 - 2346
Published: Jan. 31, 2023
Antifouling
(AF)
nanocoatings
made
of
polydimethylsiloxane
(PDMS)
are
more
cost-efficient
and
eco-friendly
substitutes
for
the
already
outlawed
tributyltin-based
coatings.
Here,
a
catalytic
hydrosilation
approach
was
used
to
construct
design
inspired
by
composite
mosquito
eyes
from
non-toxic
PDMS
nanocomposites
filled
with
graphene
oxide
(GO)
nanosheets
decorated
magnetite
nanospheres
(GO-Fe3O4
nanospheres).
Various
GO-Fe3O4
hybrid
nanofillers
were
dispersed
into
resin
through
solution
casting
method
evaluate
structure-property
relationship.
A
simple
coprecipitation
procedure
fabricate
an
average
diameter
30-50
nm,
single
crystal
structure,
predominant
(311)
lattice
plane.
The
uniform
bioinspired
superhydrophobic
PDMS/GO-Fe3O4
nanocomposite
surface
produced
had
micro-/nano-roughness,
low
surface-free
energy
(SFE),
high
fouling
release
(FR)
efficiency.
It
exhibited
several
advantages
including
simplicity,
ease
large-area
fabrication,
simultaneous
offering
dual
micro-/nano-scale
structures
simply
via
one-step
process
wide
variety
materials.
superhydrophobicity,
SFE,
rough
topology
have
been
studied
as
properties
unfilled
silicone
nanocomposites.
coatings'
physical,
mechanical,
anticorrosive
features
also
taken
account.
Several
microorganisms
employed
examine
resistance
coated
specimens
1
month.
Good
dispersion
fillers
in
coating
until
wt
%
achieved
highest
water
contact
angle
(158°
±
2°),
lowest
SFE
(12.06
mN/m),
improved
bulk
mechanical
anticorrosion
properties.
well-distributed
(1
nanofillers)
nanocoating
showed
least
biodegradability
against
all
tested
[Kocuria
rhizophila
(2.047%),
Pseudomonas
aeruginosa
(1.961%),
Candida
albicans
(1.924%)].
We
successfully
developed
non-toxic,
low-cost,
economical
nanostructured
FR
coatings
long-term
ship
hull
This
study
may
expand
applications
bio-inspired
functional
materials
because
multiple
AF,
durability
hydrophobicity
both
important
industrial
applications.
