Materials,
Год журнала:
2024,
Номер
17(6), С. 1306 - 1306
Опубликована: Март 12, 2024
Adsorptive,
catalytic,
and
antibacterial
properties
of
clinoptilolite-rich
tuffs
(ZT)
are
presented
here.
ZT
transformed
into
Fe-containing
(Fe-ZT)
removes
various
organic
inorganic
anions
from
water.
Fe-ZT,
which
contains
selenium,
is
beneficial
for
growing
Pleurotus
ostreatus
mushrooms.
The
fungi
convert
Se
Fe-ZT
a
more
useful
organically
bonded
form.
as
supplements
retain
nitrogen
potassium
in
sandy,
silty
loam
clay
soils.
shows
an
affinity
toward
toxic
metal
cations,
essential
cleaning
contaminated
adsorption
atenolol,
acetylsalicylic,
salicylic
acid
onto
M-ZT
(M-Cu2+,
Mn2+,
Ni2+,
or
Zn2+)
water
solutions
suggests
that
both
the
natures
M
pharmaceuticals
have
significant
impact
on
mechanism
determine
capability
ZT.
excellent
carrier
ultrafine
(2-5
nm)
nano
oxide
particles,
been
shown
to
catalytic
activity
different
chemical
processes
photodegradation
reactions
pollutants.
can
also
be
SO4-SnO2-ZT,
catalytically
active
solid
acid.
effective
valuable
bacteria.
Ag-ZT
possesses
bactericidal
disinfecting
soil
remediation.
Nanomaterials,
Год журнала:
2023,
Номер
13(23), С. 3026 - 3026
Опубликована: Ноя. 27, 2023
Ti3C2-MXene
material,
known
for
its
strong
electronic
conductivity
and
optical
properties,
has
emerged
as
a
promising
alternative
to
noble
metals
cocatalyst
the
development
of
efficient
photocatalysts
used
in
environmental
cleanup.
In
this
study,
we
investigated
photodegradation
crystal-violet
(CV)
dye
when
exposed
UV
light
using
newly
developed
photocatalyst
Ti3C2-MXene/NiO
nanocomposite-decorated
CsPbI3
perovskite,
which
was
synthesized
through
hydrothermal
method.
Our
research
investigation
into
structural,
morphological,
characteristics
Ti3C2-MXene/NiO/CsPbI3
composite
techniques
such
FTIR,
XRD,
TEM,
SEM–EDS
mapping,
XPS,
UV–Vis,
PL
spectroscopy.
The
photocatalytic
efficacy
assessed
by
evaluating
ability
degrade
CV
an
aqueous
solution
under
UV-light
irradiation.
Remarkably,
displayed
significant
improvement
both
degradation
rate
stability
compared
nanocomposite
perovskite
materials.
Furthermore,
UV–visible
absorption
spectrum
demonstrated
reduced
band
gap
2.41
eV,
is
lower
than
that
(3.10
eV)
(1.60
eV).
practical
terms,
achieved
impressive
92.8%
within
90
min
exposure.
We
also
confirmed
role
photogenerated
holes
radicals
removal
process
radical
scavenger
trapping
experiments.
Based
on
our
findings,
proposed
plausible
mechanism
composite.
This
may
open
up
new
avenues
cost-effective
high-performance
MXene-based
photocatalysts,
utilizing
abundant
sustainable
materials
remediation.
Covalent
organic
frameworks
(COFs)
have
emerged
as
an
interesting
class
of
crystalline
porous
materials
with
desirable
properties
(such
highly
ordered
porosity,
structural
versatility,
high
chemical
and
thermal
stabilities,
facile
surface
modification)
a
broad
range
potential
applications.
This
critical
review
is
aimed
at
providing
insight
into
design
strategies
synthetic
methodologies
for
COFs.
Unlike
previous
reviews
on
COFs,
this
article
also
focuses
the
characterization
which
important
understanding
physical
COFs
that
are
essential
practical
Furthermore,
highlights
applications
in
various
fields,
including
catalysis,
photovoltaic
devices,
sensors,
supercapacitors,
wastewater
treatment,
biomedicine,
chromatographic
spectroscopic
analyses,
gas
separation
storage.
Lastly,
perspectives
future
directions
challenges
associated
provided.
Journal of Hazardous Materials Advances,
Год журнала:
2024,
Номер
14, С. 100425 - 100425
Опубликована: Март 28, 2024
The
current
study
comprehensively
reviews
the
ecological
niche
and
pathogenicity
shift
in
freshwater
microbial
community
response
to
stress
induced
by
a
high
pollution
load.
provides
unique
understanding
of
how
change
oxygen
level
tends
affect
survival
aquatic
biota
delving
into
an
increase
pollutant
load
affects
stability.
review
indicated
that
loads
alter
balance
resources
such
as
organic
matter,
dissolved
gases,
light
penetration,
essential
nutrients.
This
causes
dynamics
species-dependent
microorganisms
environments.
also
alteration
genome
microorganisms,
leading
development
antibiotic
resistance
genes
thereby
increasing
microorganisms.
dynamic
created
lowers
natural
defence
strategies
environment,
efficacy
pathogens
infest
respective
host.
A
detailed
mechanisms
involved
exotoxins
production
interaction
with
will
give
important
insight
effect
exotoxin.
is
importance
both
environmental
medical
interests.
because
not
only
detrimental
organisms
but
resists
improperly
treated
drinking
water.
Such
water
could
retrogress
wellness
quality
life
when
used
continuously.
An
extensive
on
specific
pollutants
cause
microbiota
provide
impact
stability
environment.
Materials,
Год журнала:
2024,
Номер
17(6), С. 1306 - 1306
Опубликована: Март 12, 2024
Adsorptive,
catalytic,
and
antibacterial
properties
of
clinoptilolite-rich
tuffs
(ZT)
are
presented
here.
ZT
transformed
into
Fe-containing
(Fe-ZT)
removes
various
organic
inorganic
anions
from
water.
Fe-ZT,
which
contains
selenium,
is
beneficial
for
growing
Pleurotus
ostreatus
mushrooms.
The
fungi
convert
Se
Fe-ZT
a
more
useful
organically
bonded
form.
as
supplements
retain
nitrogen
potassium
in
sandy,
silty
loam
clay
soils.
shows
an
affinity
toward
toxic
metal
cations,
essential
cleaning
contaminated
adsorption
atenolol,
acetylsalicylic,
salicylic
acid
onto
M-ZT
(M-Cu2+,
Mn2+,
Ni2+,
or
Zn2+)
water
solutions
suggests
that
both
the
natures
M
pharmaceuticals
have
significant
impact
on
mechanism
determine
capability
ZT.
excellent
carrier
ultrafine
(2-5
nm)
nano
oxide
particles,
been
shown
to
catalytic
activity
different
chemical
processes
photodegradation
reactions
pollutants.
can
also
be
SO4-SnO2-ZT,
catalytically
active
solid
acid.
effective
valuable
bacteria.
Ag-ZT
possesses
bactericidal
disinfecting
soil
remediation.
