Advanced Sustainable Systems,
Journal Year:
2023,
Volume and Issue:
7(8)
Published: June 27, 2023
Abstract
The
degradation
of
fossil
fuel
and
worse
environmental
conditions
leads
to
the
emergence
hybrid
semiconductor
(SC)
nanomaterials
as
photocatalysts.
Hybrid
SCs
have
interesting
physical,
mechanical,
optical,
chemical,
electronic
characteristics.
Due
these
properties’
absorption
light
transfer
charge
takes
place
frequently
hence
act
multifunctional
surface.
These
materials
should
be
attributed
their
optical
electrical
properties
surfaces
in
energy
production,
generation,
remediation,
sensing,
etc.
When
combine
with
noble,
non‐noble
metal,
metal
oxide,
some
carbon‐based
materials,
they
explore
wide
applications
various
fields.
Photocatalysis
is
an
effective
sustainable
technology
reduce
or
fix
concerns
corrosion
problems.
By
going
through
extensive
literature
review,
few
topics
are
focused
on
designing
working
mechanisms
materials.
In
this
way,
present
review
article
explains
properties,
surface‐interface
engineering,
design,
(energy
environmental)
nanomaterials,
emphasizing
photocatalytic
nature.
Additionally,
appealing
directions,
scientific
challenges,
reasons
behind
poor
stability
SC
photocatalyst
for
discussed.
Finally,
concluding
remarks
current
challenges
future
prospects
domain
highlighted.
Progress in Materials Science,
Journal Year:
2024,
Volume and Issue:
146, P. 101314 - 101314
Published: June 3, 2024
This
review
offers
a
comprehensive
evaluation
of
an
emerging
category
adsorbing
materials
known
as
high
surface
area
(HSAMs)
in
the
realm
water
remediation.
The
objective
is
to
shed
light
on
recent
advancements
HSAMs
featuring
multiple
dimensionalities,
addressing
their
efficacy
toxic
metal
ions
from
wastewater.
spectrum
examined
this
encompasses
metal–organic
frameworks
(MOFs),
covalent
organic
(COFs),
carbon-based
porous
materials,
mesoporous
silica,
polymer-based
layered
double
hydroxides,
and
aerogels.
delves
into
state-of-the-art
design
synthetic
approaches
for
these
elucidating
inherent
properties.
It
particularly
emphasizes
how
combination
pore
structure
contributes
effectiveness
ions.
These
possess
remarkable
attributes,
including
molecular
functionalization
versatility,
porosity,
expansive
area,
distinctive
physicochemical
characteristics,
well-defined
crystal
structures,
rendering
them
exceptional
adsorbents.
While
each
boasts
unique
advantages
stemming
properties,
synthesis
often
entails
intricate
costly
procedures,
presenting
substantial
obstacle
commercialization
widespread
adoption.
Finally,
underscores
existing
challenges
that
must
be
addressed
expedite
translation
remediation
applications
promising
materials.
Next Materials,
Journal Year:
2024,
Volume and Issue:
3, P. 100107 - 100107
Published: Jan. 12, 2024
Toxic
pollutant
contamination
of
water
resources
is
a
significant
problem.
Numerous
aquatic
systems
are
tainted
by
various
hazardous
inorganic
and
organic
species
introduced
wastewater
from
different
human
sources,
including
domestic
homes,
businesses,
farms,
mining.
Given
this,
treating
the
primary
environmental
challenge.
An
overview
recent
advancements
in
materials
based
on
graphene
(Gr)
for
treatment
given
this
paper.
Because
its
special
qualities,
Gr,
two-dimensional
material
with
remarkable
mechanical,
electrical,
thermal
properties,
has
become
capable
applications.
Here,
we
have
discussed
types
Gr-based
synthesis
methods
used
to
materials.
The
physiochemical
properties
materials,
such
as
high
surface
area,
mechanical
strength,
electrical
conductivity,
chemical
stability,
optical
gas
permeability,
also
been
discussed.
Finally,
application
(such
removal
contaminants,
pharmaceuticals,
heavy
metals,
bacteria
viruses),
existing
challenges,
future
direction
concluded
remarks.
A
comparative
study
terms
degradation
performance
cost
compared
other
provided
review.
Therefore,
comprehensive
review
emerging
paradigm
applications,
providing
insights
into
their
potential
impact
treatment.
Journal of Inorganic and Organometallic Polymers and Materials,
Journal Year:
2024,
Volume and Issue:
34(9), P. 3907 - 3930
Published: May 8, 2024
Abstract
Wastewater
treatment
is
designed
to
eradicate
toxic
pollutants
emanating
from
the
industrial
effluent
surface
and
underground
water.
The
efficiency
limitations
of
most
existing
water
techniques
such
as
coagulation/flocculation,
photocatalysis,
membrane
technologies
adsorption
in
remediation
have
been
established.
However,
success
reported
for
each
these
usually
associated
with
environmental
friendliness
products
applied.
MOFs-based
are
one
materials
serving
an
alternative
chemically
synthesized
products,
their
application
has
extensively
but
not
systematically
documented.
In
this
review,
authors
endeavoured
comprehensively
provide
insights
into
recent
product
synthesis
different
applications,
especially
treatment.
key
factors
influencing
MOFs,
including
choice
metal
ions,
organic
linkers,
conditions,
along
latest
developments
scalable
cost-effective
fabrication
discussed.
routes,
limitation
performances
adsorbent,
photocatalyst
additives
removal
elaborated.
prospects
large-scale
production
real
applications
critically
reviewed
study.
Overall,
a
well-curated
MOFs
hereby
generated
best
resources
accessible
through
literature.
Materials Advances,
Journal Year:
2024,
Volume and Issue:
5(14), P. 5870 - 5884
Published: Jan. 1, 2024
The
synthesis
of
a
zinc-based
organic
framework
utilized
rapid,
cost-effective,
and
environmentally
friendly
sonochemical
method,
for
the
electrochemical
detection
paracetamol.
Journal of Bioresources and Bioproducts,
Journal Year:
2023,
Volume and Issue:
9(3), P. 253 - 282
Published: Dec. 10, 2023
As
the
population
increases
and
manufacturing
grows,
greenhouse
gas
other
harmful
emissions
increase.
Contaminated
with
chemicals
such
as
dyes,
pesticides,
pharmaceuticals,
oil,
heavy
metals
or
radionuclides,
wastewater
purification
has
become
an
urgent
issue.
Various
technologies
exist
that
can
remove
these
contaminants
from
sources,
but
they
often
demand
high
energy
and/or
cost,
in
some
cases
produce
contaminant
laden
sludge
requires
safe
disposal.
The
need
for
methods
which
are
less
capital
intensive,
operationally
costly
more
environmentally
friendly
is
suggested.
Cellulose-based
materials
have
emerged
promising
candidates
treatment
due
to
their
renewability,
low
biodegradability,
hydrophilicity,
antimicrobial
property.
In
this
review
article,
we
focussed
on
developing
sustainable
biodegradable
cellulose-based
treatment.
This
article
deals
materials'
scope
conversion
into
valuable
products
like
hydrogel,
aerogel,
cellulose
composites,
nanocellulose.
no
environmental
impact
plentiful.
modified
applying
membrane,
adsorbent,
sorbent,
beads
purify
were
discussed.
Finally,
challenges
future
prospects
of
considered,
emphasizing
potential
be
eco-friendly
alternatives
traditional
used
Scientific Reports,
Journal Year:
2023,
Volume and Issue:
13(1)
Published: Nov. 14, 2023
The
excessive
release
of
greenhouse
gases,
especially
carbon
dioxide
(CO2)
pollution,
has
resulted
in
significant
environmental
problems
all
over
the
world.
CO2
capture
technologies
offer
a
very
effective
means
combating
global
warming,
climate
change,
and
promoting
sustainable
economic
growth.
In
this
work,
UiO-66-NH2
was
synthesized
by
novel
sonochemical
method
only
one
hour.
This
material
characterized
through
PXRD,
FT-IR,
FE-SEM,
EDX,
BET,
TGA
methods.
potential
presented
investigated
analysis
gas
isotherms
under
varying
pressure
conditions,
encompassing
both
low
high-pressure
regions.
Remarkably,
adsorbent
manifested
notable
augmentation
adsorption
capacity
(3.2
mmol/g),
achieving
an
approximate
enhancement
0.9
mmol/g,
when
compared
to
conventional
solvothermal
techniques
(2.3
mmol/g)
at
25
°C
1
bar.
To
accurately
represent
experimental
findings,
three
isotherm,
kinetic
models
were
used
fit
data
which
Langmuir
model
Elovich
exhibited
best
with
R2
values
0.999
0.981,
respectively.
Isosteric
heat
evaluation
showed
higher
than
80
kJ/mol
indicates
chemisorption
between
surface
adsorbate.
Furthermore,
selectivity
examined
using
Ideal
Adsorbed
Solution
Theory
(IAST),
high
value
202
towards
simulated
flue
conditions.
evaluate
durability
performance
consecutive
adsorption-desorption
processes,
cyclic
tests
conducted.
Interestingly,
these
demonstrated
0.6
mmol/g
decrease
for
throughout
8
cycles.
