Results in Engineering,
Год журнала:
2024,
Номер
21, С. 101809 - 101809
Опубликована: Янв. 18, 2024
Acceleration
of
industrialization
causes
an
increase
in
concentration
greenhouse
gases
(GHGs),
particularly
CO2,
as
well
particulate
matter
the
air.
Therefore,
it
is
necessary
to
develop
strategies
for
elimination
GHGs.
Graphene
and
its
derivatives
were
reported
be
excellent
candidates
CO2
adsorption
also
removal
by
air
filtration.
For
fabrication
filtration
membranes,
using
graphene/graphene
derivatives,
they
incorporated
with
certain
polymers
such
polyacrylonitrile
made
into
nanofibrous
membranes.
Electrospun
membranes
are
characterised
high
porosity,
small
pore
size
connectivity,
have
been
found
a
promising
candidate
The
review
article
focuses
on
two
aspects
purification,
first
part
discuss
use
second
graphene
based
electrospun
removal.
factors
influencing
efficiency
has
discussed
detail.
Green Energy & Environment,
Год журнала:
2022,
Номер
8(3), С. 673 - 697
Опубликована: Апрель 6, 2022
Air-borne
pollutants
in
particulate
matter
(PM)
form,
produced
either
physically
during
industrial
processes
or
certain
biological
routes,
have
posed
a
great
threat
to
human
health.
Particularly
the
current
COVID-19
pandemic,
effective
filtration
of
virus
is
an
urgent
worldwide.
In
this
review,
we
first
introduce
some
fundamentals
about
PM,
including
its
source
and
classification,
mechanisms,
evaluation
parameters.
Advanced
materials
their
functions
are
then
summarized,
among
which
polymers
MOFs
discussed
detail
together
with
antibacterial
performance.
The
discussion
on
application
divided
into
end-of-pipe
treatment
control.
Finally,
conclude
review
our
prospective
view
future
research
area.
Macromol—A Journal of Macromolecular Research,
Год журнала:
2024,
Номер
4(1), С. 58 - 103
Опубликована: Фев. 11, 2024
Electrospinning
is
a
simple
and
affordable
method
of
producing
nanofibers,
offering
large
specific
surface
area
highly
porous
structures
with
diameters
ranging
from
nanometers
to
micrometers.
This
process
relies
on
an
electrostatic
field,
providing
precise
control
over
the
fiber
dimensions
morphologies
through
parameter
optimization
use
specialized
spinnerets
collectors.
The
paper
extensively
covers
electrospinning
parameters,
shedding
light
factors
influencing
electrospinning.
It
addresses
morphological
structural
aspects
electrospun
fibers
that
are
used
in
different
applications.
Additionally,
this
explores
various
polymeric
non-polymeric
materials
Furthermore,
it
investigates
incorporation
fillers
during
electrospinning,
using
electric
field
enhance
properties
functionality.
review
concludes
by
insights
into
upscaling
production.
