Advances in chemical and materials engineering book series,
Journal Year:
2024,
Volume and Issue:
unknown, P. 137 - 176
Published: Nov. 29, 2024
Traditional
membrane
technologies
often
suffer
from
limitations
such
as
fouling,
limited
selectivity,
and
insufficient
durability
under
harsh
operating
conditions.
GO-based
membranes,
in
this
regard,
offer
a
promising
solution
to
these
challenges
due
their
exceptional
properties.
This
chapter
provides
comprehensive
exploration
of
GO
emphasizing
transformative
role
industrial
wastewater
treatment.
The
discussion
extends
advanced
fabrication
techniques,
innovations
scaling
production,
the
encountered
process.
Strategies
enhance
performance
address
issues
like
fouling
are
also
examined,
alongside
environmental
economic
benefits
including
potential
for
carbon
reduction
cost-effectiveness.
Lastly,
concludes
with
future
perspectives,
outlining
emerging
trends,
interdisciplinary
approaches,
recommendations
advancing
technology
toward
widespread
adoption,
ultimately
contributing
sustainable
efficient
management.
RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(38), P. 27843 - 27851
Published: Jan. 1, 2024
With
the
rapid
advancement
of
dye
and
textile
industry,
there
has
been
increasing
concern
regarding
contamination
wastewater
with
dyes
its
potential
influence
on
human
health.
Chemistry - An Asian Journal,
Journal Year:
2024,
Volume and Issue:
20(2)
Published: Nov. 2, 2024
Abstract
Rechargeable
and
flexible
aqueous
batteries
(ABs)
have
emerged
as
one
of
promising
energy
devices
which
is
primarily
due
to
the
safety,
environmental
friendliness
economic
efficiency.
However,
because
freezing
behavior
electrolytes,
most
ABs
possess
poor
performance
when
working
temperature
drops
below
zero.
To
solve
this
problem,
a
gel
polymer
electrolyte
(GPE)
with
high
ionic
conductivity
(IC)
frost‐resistance
designed
for
Zn−Li
hybrid
by
biomass‐based
polymers
complex
consisting
carboxyl
modified
sodium
alginate
(SA)
zwitterionic
betaine
(BA).
Introducing
iminodiacetic
acid
enrich
−COOH
groups
along
SA
main
chains
could
improve
IC
prepared
GPEs
41.27
20.96
mS
cm
−1
at
20
−20
°C,
respectively.
At
discharge
capacity
resultant
cell
two
times
higher
than
that
liquid
electrolyte‐based
cell,
presents
retention
91.6
%
after
300
charge/discharge
cycles
1
C.
This
proposed
strategy
greatly
temperature,
expected
broaden
practical
application
in
wide
range
temperature.
Characterization and Application of Nanomaterials,
Journal Year:
2024,
Volume and Issue:
7(2), P. 4945 - 4945
Published: July 1, 2024
Among
carbon
nanoparticles,
fullerene
has
been
observed
as
a
unique
zero-dimensional
hollow
molecule.
Fullerene
high
surface
area
and
exceptional
structural
physical
features
(optical,
electronic,
heat,
mechanical,
others).
Advancements
in
have
the
form
of
nanocomposites.
Application
nanocomposites
found
membrane
sector.
This
cutting-edge
review
article
basically
describes
potential
nanocomposite
membranes
for
water
remediation.
Adding
nanoparticles
to
amend
microstructure
addition
porosity,
selectivity,
permeation,
flux,
desalination,
other
significant
properties
Variations
designs
resulted
greater
separations
between
salts,
desired
metals,
toxic
metal
ions,
microorganisms,
etc.
Future
investigations
on
ground-breaking
fullerene-based
materials
may
overcome
several
design
performance
challenges
advanced
applications.
