Heliyon,
Journal Year:
2024,
Volume and Issue:
10(9), P. e29573 - e29573
Published: April 20, 2024
Water
contamination
is
an
escalating
emergency
confronting
communities
worldwide.
While
traditional
adsorbents
have
laid
the
groundwork
for
effective
water
purification,
their
selectivity,
capacity,
and
sustainability
limitations
driven
search
more
advanced
solutions.
Despite
many
technological
advancements,
economic,
environmental,
regulatory
hurdles
challenge
practical
application
of
adsorption
techniques
in
large-scale
treatment.
Integrating
nanotechnology,
material
fabrication
techniques,
data-driven
design
enabled
by
artificial
intelligence
(AI)
machine
learning
(ML)
led
to
a
new
generation
optimized,
high-performance
adsorbents.
These
materials
leverage
properties
like
high
surface
area,
tailored
pore
structures,
functionalized
surfaces
capture
diverse
contaminants
efficiently.
With
focus
on
effectiveness,
this
review
highlights
transformative
potential
these
setting
benchmarks
purification
technologies.
This
article
delivers
in-depth
exploration
current
landscape
future
directions
adsorbent
technology
remediation,
advocating
multidisciplinary
approach
overcome
existing
barriers
treatment
applications.
RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(13), P. 9365 - 9390
Published: Jan. 1, 2024
The
growing
apprehension
surrounding
heavy
metal
pollution
in
both
environmental
and
industrial
contexts
has
spurred
extensive
research
into
adsorption
materials
aimed
at
efficient
remediation.
Chemical Society Reviews,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
The
latest
advancements
in
MOF-based
three-dimensional
macrostructures,
encompassing
fascinating
characteristics,
preparation
strategies,
characterization
methods,
and
environmental
applications,
are
examined.
Advanced Science,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 28, 2024
Abstract
Metal–organic
frameworks
(MOFs)
and
covalent–organic
(COFs)‐based
aerogels
are
garnering
significant
attention
owing
to
their
unique
chemical
structural
properties.
These
materials
harmoniously
combine
the
advantages
of
MOFs
COFs—such
as
high
surface
area,
customizable
porosity,
varied
functionality—with
lightweight
structured
porosity
characteristic
aerogels.
This
combination
opens
up
new
avenues
for
advanced
applications
in
fields
where
material
efficiency
enhanced
functionality
critical.
review
provides
a
comparative
overview
synthetic
strategies
utilized
produce
pristine
MOF/COF
well
MOF/COF‐based
hybrid
aerogels,
which
functionalized
with
molecular
precursors
nanoscale
materials.
The
versatility
these
positions
them
promising
candidates
addressing
complex
challenges
environmental
remediation,
energy
storage
conversion,
sustainable
water‐energy
technologies,
separations.
Furthermore,
this
study
discusses
current
future
prospects
related
synthesis
techniques
